JP2010121446A - Various energy conservation cycle combined engine - Google Patents

Various energy conservation cycle combined engine Download PDF

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JP2010121446A
JP2010121446A JP2008290630A JP2008290630A JP2010121446A JP 2010121446 A JP2010121446 A JP 2010121446A JP 2008290630 A JP2008290630 A JP 2008290630A JP 2008290630 A JP2008290630 A JP 2008290630A JP 2010121446 A JP2010121446 A JP 2010121446A
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turbine
power generation
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blade cross
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Hiroyasu Tanigawa
浩保 谷川
Kazunaga Tanigawa
和永 谷川
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Abstract

<P>PROBLEM TO BE SOLVED: To eliminate the existing thermal and nuclear power generation to prevent global warming, by using a large specific gravity object gravitational power generation to increase a power generation amount to approximately 13,000 times. <P>SOLUTION: One type of vertical all moving blade gravitational turbine is driven by water acceleration of a coated still ball or mercury acceleration of a platinum ball in the large specific gravity object gravitational power generation. An atmospheric pressure equal speed equal volume steel ball power is increased to 13,000 times the steel ball power or 36,000 times the platinum ball power in the existing steam turbine. A gravity acceleration of 9.8 m/sec vertically downward in a vacuum direction is added, and a head is increased to 1000 m to increase the power generation amount by driving a steel ball speed turbine. The power generation amount is ten times larger than the world by operating the solar gravitational power generation of the steel ball. By various automobiles and various ships driven by the extremely inexpensive gravitational power generation battery, and all-electric homes driven by electric power are widely spread and anybody can contribute. Since fuel economy, CO<SB>2</SB>emission, and increase in seawater temperature become zero, the need of the existing thermal and nuclear power generation is eliminated by the large specific gravity object gravitational power generation to prevent the global warming. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

地球最大加速が真空中の重力加速度で、小型軽量大出力の発電用理論最良エンジンを、竪型全動翼重力タービン8G重力加速度発電とし、竪型全動翼重力タービン8Gを限り無く多段に設けて落差を増大した出力増大として、鋼球等限りなく小径として衝撃を低減した比重大物質1cの出力増大球2Eとし、液体比重大物質兼衝撃低減手段の水銀1dや水52aを400MPa等でポンプ噴射して、真空方向垂直下方に重力加速度を追加加速してタービン翼8cに噴射し、水を衝撃低減手段2Gとして鋼球又は被覆鋼球の転がり接触回転出力発生として、被覆や潤滑油や不燃液体等各種衝撃低減手段2Gを設けた比重大物質1cを重力加速度加速の過程で、竪型全動翼重力タービン8Gを駆動する、比重大物質重力発電技術に関する。   The earth's maximum acceleration is gravitational acceleration in vacuum, and the theoretical best engine for power generation with small size, light weight, and high output is a vertical all blade gravity turbine 8G gravity acceleration power generation. As an output increase with an increased head, an output increasing sphere 2E of a specific critical substance 1c having an extremely small diameter and reduced impact, such as a steel ball, and a liquid specific critical substance / impact reducing means mercury 1d and water 52a are pumped at 400 MPa, etc. Injecting and further accelerating gravitational acceleration vertically downward in the vacuum direction and injecting it onto the turbine blade 8c, water is used as the impact reducing means 2G to generate rolling contact rotation output of the steel ball or the coated steel ball, and to cover, lubricate or incombustible The present invention relates to a specific material gravity power generation technology for driving a saddle-type all blade gravity turbine 8G in the course of acceleration of gravity acceleration of a specific material 1c provided with various impact reducing means 2G such as liquid.

理論的には白金球と水銀の転がり接触で竪型全動翼白金球水銀重力タービン8Gを駆動して、大気圧同速度同容積仕事率kg重m/秒を、既存蒸気タービン発電の1700×13.5倍=22950倍水銀発電量や、1700×21.3=36210倍白金球発電量等に増大が最良ですが、資源量や単価を考えて軸受大量生産中の被覆鋼球+水の衝撃低減手段2G重力発電から出発にして、既存蒸気タービン発電の1700×7.8倍=約1.3万倍鋼球仕事率等にし、可能な限り小径とした被覆鋼球+水の重力加速度駆動の竪型全動翼被覆鋼球水重力タービン8G駆動として、既存蒸気タービン発電の1、3万倍鋼球発電量理論最良エンジンから実験結果最良エンジンに移行を狙う、熱量消費0CO2排気0海水温度上昇0の比重大物質重力発電技術に関する。   Theoretically, by driving the vertical spherical blade mercury ball mercury gravity turbine 8G by rolling contact of platinum balls and mercury, the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / second, can be obtained. 13.5 times = 22950 times mercury power generation and 1700 x 21.3 = 36210 times platinum ball power generation is the best, but considering the amount of resources and unit price, coated steel balls + water in mass production of bearings Impact reduction means Starting from 2G gravity power generation, 1700 × 7.8 times that of existing steam turbine power generation = approx. 13,000 times steel ball power, etc. As a driven vertical rotor blade-coated steel ball water gravity turbine 8G drive, aiming to shift from the best steam engine power generation theoretical theory engine of 130,000 times steel ball power generation to the best engine, heat consumption 0CO2 exhaust 0 seawater Specific gravity of gravity with zero temperature rise On electric technology.

後追いエンジン発明阻止のため、高校や大学で既存エンジンを理論最良エンジンと徹底的に騙しており、小学校理科に戻って理論最良エンジンを考えると、出力や仕事率の単位がkg重m/秒等重量×速度のため、重い物質を高速度にして回転出力発生が理論最良エンジンです。更に火力原子力発電の海面温度7度上昇は環境に影響皆無と騙しており、これも騙しが明白で海面温度7度上昇を100年続け、原子力発電でCO2排出量を低減しても、海水表面温度7度上昇海域が10%成長で1000倍を超えるため、旱魃や豪雨や風速を10倍の300m/秒台風や季節風として南極の氷を0に近付け、陸と海の食糧が0に近付き、人類が絶滅する背景があります。火力原子力発電では海面温度7度上昇は環境に影響皆無と騙しており、日本近海の海藻類や魚類が絶滅に近付くテレビ報道が実際です。IPCC北極予測も7度上昇がコンピュータ計算外のため、衛星07年観測北極海海氷面積がIPCC第4次報告書の40年後に近い誤報の報道があり、IPCC予測全部を大誤報と考えるのが良く、平均的に1度温度上昇しても異状気象は困難で、90%前後が海面温度7度上昇と考えると、100年前後で海面温度2〜3回上昇14〜21度上昇海域が出現し、南極の氷が0に近付き、海面上昇が77mに近付く背景があります。   In order to prevent the invention of the follow-up engine, the existing engine is thoroughly deceived as a theoretical best engine in high school and university. When returning to elementary school science and thinking about the theoretical best engine, the unit of output and work rate is kg weight m / second, etc. Due to the weight x speed, it is the theoretical best engine that generates heavy output at a high speed with heavy substances. Furthermore, a 7 degree rise in sea surface temperature of thermal nuclear power generation is believed to have no impact on the environment, and this is obvious, even if the sea level temperature rises 7 degrees for 100 years and CO2 emissions are reduced by nuclear power generation, Because the sea area where the temperature rises by 7 degrees exceeds 1000 times by 10% growth, Antarctic ice is brought close to 0 as a 300m / second typhoon or seasonal wind that is 10 times higher than drought, heavy rain, and wind speed, and land and sea food approaches 0, There is a background to the extinction of mankind. With thermal nuclear power generation, a 7-degree rise in sea surface temperature is said to have no impact on the environment, and TV reports that seaweeds and fish near Japan are nearing extinction are actual. Since the IPCC Arctic forecast also rose 7 degrees outside the computer calculation, there was a report of misreporting that the Arctic sea ice area observed in the satellite 07 was close to 40 years after the IPCC 4th report, and I think the entire IPCC forecast is a major misinformation Even if the temperature rises by 1 degree on average, abnormal weather is difficult, and if 90% is considered to be a rise of 7 degrees in the sea surface temperature, the sea area will rise 14 to 21 degrees in 2 to 3 times in about 100 years. There is a background where Antarctic ice approaches 0 and sea level rise approaches 77m.

出力や仕事率の単位がkg重m/秒等重量×速度のため、重い物質を重力加速度加速にして回転出力を発生するのが理論最良エンジンですが、考えた痕跡が皆無という背景があります。そこで消費熱量0鋼球の重力発電にし、大気圧同速度同容積仕事率kg重m/秒を1700倍×7.8=約1.3万倍にして、白金球や水銀や鋼球等比重大物質1cを垂直下方に重力加速度加速にすると、低速で落差を増大する入力より重力加速度加速だけでも出力発生は大幅に増大し、タービンの大型化多数化+落差を1000m以上に増大限り無く出力を増大できる背景があります。地球での最大加速が真空中の重力加速度で無限大のエネルギーに近く、海水温度上昇0やCO2排気0や燃料費0の理論最良エンジン重力発電や重力太陽熱発電として、無限大に近い発電量とし、重力発電蓄電池駆動や電気駆動の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛等、極端に安価な発電の蓄電池駆動や電気駆動の地球温暖化防止が得られる背景があります。   Since the unit of output and power is kg weight m / sec, equal weight x speed, the best engine theoretically generates a rotating output by accelerating gravitational acceleration of heavy substances, but there is a background that there is no trace of thought. Therefore, the gravity power generation of steel balls with zero heat consumption, the atmospheric pressure, the same speed, the same volumetric power, kg weight m / sec, is increased to 1700 times x 7.8 = about 13,000 times, and the specific gravity of platinum balls, mercury, steel balls, etc. If gravity acceleration is applied to the large substance 1c vertically downward, the generation of output will be greatly increased by gravity acceleration alone, rather than the input that increases the head at low speed. There is a background that can increase. The maximum acceleration on the earth is close to infinite energy due to gravitational acceleration in the vacuum, and the theoretical power generation with zero seawater temperature rise, zero CO2 exhaust, and zero fuel cost. In addition, there is a background that can prevent global warming by driving the storage battery and electric drive of extremely inexpensive power generation such as the prime of various automobiles, various ships and the electrification of all-electric houses driven by gravity power storage battery and electric drive.

昭和17〜18年に理論最良エンジンの発明を決意実際は改良から始め、昭和38年岡山地方発明センターの請負で試作を開始して、自分でも試作を続けましたがエンジンの試作は非常に困難です。そこで昭和57年2月より国内大企業等多数にご協力のお願い始めましたが、日本企業等の協力が皆無で、外国唯一お願いしたクリントン大統領の協力がお願いの都度3年3回得られ、1992年米国特許5133305号、1993年米国特許5230307号、1995年米国特許5429078号の駄目発明が判明したのです。既存のエンジンに致命的な欠点が非常に多く改良発明不可能で発明困難が判明し、急がば回れと1997年ホームページを開設して欠点を1つ改良特許出願して、2006年理論最良エンジン近くに到達し、08年大統領の協力が略開花したものです。
米国特許第6119650号、中国特許第8818号、EU英国特許902175号、米国特許第6263664号があり、上記多数の背景技術を改良や、下記特許文献2も理論最良エンジン発明の過程の発明です。 先の出願として特願2007−179204号、特願2007−221970号、特願2007−237367号、特願2007−250348号、特願2007−265115号、特願2008−6612号、特願2008−22246号、特願2008−24656号、特願2008−28582号、特願2008−30162号、特願2008−94452号、特願2008−99870号、特願2008−125665号、特願2008−134046号、特願2008−137629号、特願2008−157556号、特願2008−158830号、特願2008−162842号、特願2008−164111号、特願2008−166907号、特願2008−169979号、特願2008−173046号、特願2008−174231号、特願2008−178700号、特願2008−179872号、特願2008−181052号、特願2008−182325号、特願2008−186795号、特願2008−188165号、特願2008−202677号、特願2008−203842号、特願2008−206632号、特願2008−209497号、特願2008−214912号、特願2008−229434号、特願2008−231842号、特願2008−243690号、特願2008−245061号、特願2008−249719号、特願2008−256006号、特願2008−266020号、特願2008−269294号、特願2008−282825号、特願2008−288411号があります。
Decided to invent the theoretical best engine in 1958 and 1980. Actually started with improvements, started the prototype at the Okayama Regional Invention Center in 1963, and continued to make the prototype myself, but the engine prototype was very difficult. . Therefore, in February 1982, we started requesting cooperation from a large number of large domestic companies, etc., but there was no cooperation from Japanese companies, etc., and every time we asked for the cooperation of President Clinton, the only request from foreign countries, three times a year, The 1992 US Patent 5133305, 1993 US Patent 5230307, and 1995 US Patent 5429078 were found to be useless. There are so many fatal defects in the existing engine that it was impossible to improve the invention and it was difficult to invent it. It reached near, and the cooperation of the president in 2008 was almost blossomed.
There are US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, US Pat. No. 6,263,664, and many of the above background technologies have been improved, and the following Patent Document 2 is also an invention in the process of theoretical best engine invention. As prior applications, Japanese Patent Application No. 2007-179204, Japanese Patent Application No. 2007-221970, Japanese Patent Application No. 2007-237367, Japanese Patent Application No. 2007-250348, Japanese Patent Application No. 2007-265115, Japanese Patent Application No. 2008-6612, and Japanese Patent Application No. 2008- No. 22246, Japanese Patent Application No. 2008-24656, Japanese Patent Application No. 2008-28582, Japanese Patent Application No. 2008-30162, Japanese Patent Application No. 2008-94452, Japanese Patent Application No. 2008-99870, Japanese Patent Application No. 2008-125665, Japanese Patent Application No. 2008-134046. No., Japanese Patent Application No. 2008-137629, Japanese Patent Application No. 2008-157556, Japanese Patent Application No. 2008-158830, Japanese Patent Application No. 2008-162842, Japanese Patent Application No. 2008-164111, Japanese Patent Application No. 2008-166907, Japanese Patent Application No. 2008-169799. Japanese Patent Application No. 2008-173046, Japanese Patent Application No. 20 Japanese Patent Application No. 8-174231, Japanese Patent Application No. 2008-178700, Japanese Patent Application No. 2008-179872, Japanese Patent Application No. 2008-181052, Japanese Patent Application No. 2008-182325, Japanese Patent Application No. 2008-186895, Japanese Patent Application No. 2008-188165, Japanese Patent Application No. 2008. No. -202676, Japanese Patent Application No. 2008-203842, Japanese Patent Application No. 2008-206632, Japanese Patent Application No. 2008-209497, Japanese Patent Application No. 2008-214912, Japanese Patent Application No. 2008-229434, Japanese Patent Application No. 2008-231842, Japanese Patent Application No. 2008- No. 243690, Japanese Patent Application No. 2008-244501, Japanese Patent Application No. 2008-249719, Japanese Patent Application No. 2008-256006, Japanese Patent Application No. 2008-266020, Japanese Patent Application No. 2008-269294, Japanese Patent Application No. 2008-282825, Japanese Patent Application No. 2008-288411 There is a number.

既存世界の火力原子力発電所では、CO2増大地球温暖化加速や海水表面温度摂氏7度上昇海域を100年で1000倍等とし、冬場に海面冷却海底に栄養分を供給していた自然現象を不可能として、植物プランクトンや海草類やサンゴ等を激減、食物連鎖により魚類の食糧激減魚類を大幅に激減人類の海中食物を限り無く減少し、旱魃や集中豪雨や台風や季節風を10倍等に増大して、例えば台風や季節風を300m/秒等として陸上での食糧生産も加速度的に困難とし、人類絶滅の危険を増大のため、理論最良エンジン太陽熱重力発電により既存世界の10倍発電量として、既存世界の火力原子力発電所を全廃比重大物質太陽熱重力発電や重力発電等にし、重力発電の蓄電池駆動各種自動車類全盛や、蓄電池駆動各種船舶類全盛や電気駆動全面電化住宅全盛にして、海水温度上昇0CO2排気0燃料費0で発電し、人類絶滅を先送りする、人類史上最大の課題が在ります。   In the existing world thermal power plants, CO2 increases global warming acceleration and sea surface temperature rises 7 degrees Celsius by 1000 times in 100 years, and the natural phenomenon of supplying nutrients to the sea surface cooling seabed in winter is impossible As a result, phytoplankton, seaweeds, corals, etc. are drastically reduced, fish foods are drastically reduced by the food chain, and humans' marine foods are drastically reduced, droughts, torrential rains, typhoons and seasonal winds are increased 10 times, etc. For example, the typhoon and seasonal winds are 300m / second, etc., making it difficult to produce food on land at an accelerated pace and increasing the danger of human extinction. As a result, the thermal power plant of Japan will become a major abolished material such as solar gravity power generation and gravity power generation. And the entire surface electric homes prime, generated by the seawater temperature rise 0CO2 exhaust 0 fuel costs 0, to postpone the mankind extinction, there are challenges maximum human history.

CO2排気0燃料費0の竪型全動翼重力タービンにより、比重大物質重力発電にして、例えば被覆鋼球の重力発電にし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービンの1.3万倍鋼球仕事率にして、既存世界の発電量の10倍発電量とし、重力発電蓄電池駆動各種自動車類全盛や、蓄電池駆動各種船舶類全盛や全面電化住宅全盛にして、既存世界の火力原子力発電所全廃CO2排気0海面温度上昇0にし、地球温暖化防止海面7度上昇海域を0にして、人類絶滅を先送りする効果があります。   By using a vertical all-blade gravity turbine with zero CO2 exhaust gas and zero fuel cost, the gravity steam power generation of specific material, for example, the gravity power generation of coated steel balls, and the existing steam turbine with the same atmospheric pressure, same speed, and same volumetric power, kg weight m / sec. 13,000 times the steel ball work rate, and 10 times the amount of power generation in the existing world, the prime of various automobiles driven by gravity power storage batteries, the prime of various types of ships driven by storage batteries, and the full scale of electrified houses The world's thermal nuclear power plants are completely abolished. CO2 emissions are zero. Sea surface temperature rises to 0. The global warming prevention sea level rises by 7 degrees.

発明の実施の形態や実施例を、図面を参照して説明するが、実施形態や実施例と既説明とその構成が略同じ部分には、同一の名称又は符号を付して、重複説明はできるだけ省略し、特徴的な部分や説明不足部分は、順次追加重複説明する。又非常に難解な脳内理論最良エンジン発明のためと、意図する所及び予想を具体的に明快に説明するため、アイディアを仮説数字で説明するが、正解は実験数字として理論最良エンジンの仮説数字に限定しません。最良と思われるアイディアを多数の用途で重複説明し、用途に合せてアイディアを選択使用して、請求項では多用途に合せて選択使用するため千変万化し、理論最良エンジンから実験結果最良エンジンに移行して、完成します。   Embodiments and examples of the invention will be described with reference to the drawings, but the same names or reference numerals are given to portions that are substantially the same as those of the embodiments and examples and the description, and redundant description will be omitted. Omitted as much as possible, and the characteristic part and the lack of explanation will be explained in duplicate. The idea is explained with hypothetical figures for the very difficult brain theory best engine invention and to clearly explain the intended place and expectation, but the correct answer is the hypothetical figure of the theoretical best engine as an experimental figure. It is not limited to. The idea that seems to be the best is duplicated in many applications, the idea is selected and used according to the application, and the claim is selected to be used according to multiple applications. And completed.

図1の比重大物質重力発電では、1種類の竪型全動翼重力タービン8G及び発電機1を、タービン外箱77a内に限り無く多段の1〜120段等垂直に設けて、夫々重量を支える推力軸受80aや軸受80を設け、竪型全動翼重力タービン8G駆動の過程では、増大球上昇装置2Fにより白金球や被覆鋼球や水銀や水等、用途に合わせた出力増大球2Eを最上部に上昇保存増大して、出力増大手段2Dを開放し、上昇保存した水52aは水噴射ポンプ6zで400MPa噴射出力増大球2E混合噴射して、竪型全動翼重力タービン8Gを駆動し、潤滑性材料としては、金や銀や二硫化モリブデンや四フッ化エチレンの被覆やグラファイト等として、潤滑性材料等各種公知技術最適利用として摩擦損失を最小の回転出力とし、落差増大タービン数増大で限り無くCO2排気0海水温度上昇0の発電量を増大して、既存火力原子力発電の使用熱量全部で海水温度7度上昇を全廃し、重力発電蓄電池駆動の自動車類全盛や船舶類全盛や電気駆動のオール電化住宅全盛等にして、地球温暖化防止して人類絶滅を先送りします。   In the specific material gravity power generation of FIG. 1, one type of vertical all blade gravity turbine 8G and generator 1 are provided not only in the turbine outer casing 77a but vertically in multiple stages 1 to 120, etc. In the process of driving the vertical type moving blade gravity turbine 8G, a thrust thrust bearing 80a and a bearing 80 to be supported are provided, and an output increasing ball 2E such as a platinum ball, a coated steel ball, mercury, water, or the like is generated by the increasing ball rising device 2F. The increased storage is increased to the top, the output increasing means 2D is opened, and the stored water 52a is mixed and injected by the water injection pump 6z with the 400 MPa injection output increasing sphere 2E to drive the vertical all blade gravity turbine 8G. As a lubrication material, gold, silver, molybdenum disulfide, tetrafluoroethylene coating, graphite, etc., various known technologies such as lubrication materials are used optimally, and friction loss is minimized and turbine output is increased. As much as possible, the power generation amount of CO2 exhaust 0 seawater temperature rise 0 is increased, and the seawater temperature rise is totally abolished with all the heat consumption of existing thermal nuclear power generation. We will postpone the extinction of mankind by preventing the global warming by making all electric houses driven by electricity.

潤滑性材料等の被覆を設けた被覆鋼球を使用し、出力増大手段2Dを開放して、上昇保存した衝撃低減手段2G兼出力増大球2Eの水52aを400MPa等で水噴射ポンプ6z噴射し、出力増大球2Eの小径被覆鋼球等比重大物質1cを混合噴射垂直下方真空方向に重力加速度追加加速として、9.8m/毎秒毎秒の加速を追加したタービンの回転出力発生とし、既存タービン翼断面積では不可のため、2〜25倍断面積にしたタービン翼断面4Xとして、強度増大被覆鋼球等の転がり接触回転出力発生として空気抽出器51で真空にして、出力増大球2Eの小径被覆鋼球+衝撃低減手段2Gの水52a等液体に混合ポンプ噴射とし、落差を増大毎に出力を増大して、重量+落差増大で限り無く出力を上昇し、大気圧同速度同容積出力を既存蒸気タービンの1.3万倍鋼球発電量として、選択したタービン翼8cの竪型全動翼重力タービン8G径や回転数を選択し、重力加速部1gの加速距離を選択して、円周上全部のタービン翼8cに出力増大球2Eを作用させ、大気圧同速度同容積発電量を落差+タービン増大で既存蒸気タービンの1.3万倍にします。 Using a coated steel ball provided with a coating of a lubricious material, etc., the output increasing means 2D is opened, and the water 52a of the shock reducing means 2G and output increasing sphere 2E that has been stored ascending is injected into the water injection pump 6z at 400 MPa or the like. , Output increased sphere 2E, small-diameter coated steel ball, etc. Since the cross-sectional area is not possible, the turbine blade cross-section 4X having a cross-sectional area of 2 to 25 times is evacuated by the air extractor 51 to generate a rolling contact rotation output of a strength-enhanced coated steel ball, etc. Steel ball + impact reduction means 2G water 52a, etc., mixed pump injection, increase the output every time the head increases, increase the output as much as the weight + head increases, increase the output at the same pressure and volume at the same pressure. Select the vertical turbine blade gravity turbine 8G diameter and rotation speed of the selected turbine blade 8c as the steam turbine's 13,000 times steel ball power generation amount, select the acceleration distance of the gravity acceleration part 1g, The power increasing sphere 2E is applied to all the upper turbine blades 8c, and the atmospheric pressure, the same speed, and the same volumetric power generation are reduced to 13,000 times that of the existing steam turbine by a drop + turbine increase.

海水温度上昇0CO2排気0燃料費0の、理論最良エンジン比重大物質重力発電により、既存世界発電量の10倍発電量として既存火力原子力発電を全廃し、安価な比重大物質重力発電蓄電池駆動や電気使用の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛等にして、理論最良エンジンから実験結果最良エンジンに移行し、地球温暖化防止して人類絶滅を先送りする可能性があります。   Sea water temperature rise 0 CO2 exhaust 0 fuel cost 0, theoretical best engine ratio critical material gravity power generation, abolish existing thermal nuclear power generation as 10 times the existing world power generation power generation, cheap specific material gravity power storage battery drive and electricity There is a possibility of shifting from the theoretical best engine to the best engine result of the experiment by using various types of automobiles, various types of ships, and full-scale electrified houses, etc. to prevent global warming and postpone human extinction.

竪型全動翼重力タービン8Gの説明図(実施例2)Explanatory drawing of vertical type moving blade gravity turbine 8G (Example 2)

符号の説明Explanation of symbols

1:発電機、 1A:水銀排気検査室、 1B:酸素量増大手段、 1C:アルコール冷熱、 1D:燃料噴射ポンプ、 1F:水ポンプ、 1G:熱ポンプ、 1H:揚水ポンプ、 1b:燃料、 1c:比重大物質、 1d:水銀、 1e:被覆鋼球(衝撃低減手段2Gで被覆) 1e:被覆水銀(球形のステンレス等耐久材や衝撃低減手段2Gで被覆) 1g:重力加速部、 2:太陽光加熱器(長レンズで太陽光を傾斜回転して追跡) 2a:復水器、 2b:太陽熱増大吊橋(吊具左右を上下して長レンズ複数段で太陽光を傾斜回転して追跡) 2c:断熱材、 2d:長レンズ、 2e:水面、 2f:吊具左、 2g:吊具右、 2A:耐熱材、 2B:熱吸収材、 2C:圧縮熱回収器、 2D:出力増大手段、 2E:出力増大球(水銀・水・白金球・被覆白金球・金球・被覆金球・白金合金球・金合金球・鉛合金球・銀合金球・被覆白金合金球・被覆金合金球・被覆鉛球・被覆銀合金球・タングステン合金球・被覆タングステン合金球・タングステン鋼球・被覆タングステン鋼球・タンタル合金球・被覆タンタル合金球・モリブデン鋼球・被覆モリブデン鋼球・モリブデン鋳鉄球・被覆モリブデン鋳鉄球・銀球・被覆銀球) 2F:増大球上昇装置、 2G:衝撃低減手段(小径球・潤滑油類・不燃液体類・ゴム類・プラスチック類等の被覆) 2H:冷熱復水器、 翼形太陽光加熱器、 2Y:水熱交換器、 2Z:水銀熱交換器、 3:摩擦損失低減手段(撥水作用や加熱高温手段や公知技術潤滑性材料の被覆や混合等最適利用で摩擦損失を低減) 3A:撥水作用(水との摩擦損失低減手段) 3B:加熱高温手段(電気抵抗や電磁加熱等既存技術で高温にする) 3C:冷熱回収手段、 3G:撥水作用(摩擦損失低減手段) 4A:タービン翼断面(既存断面) 4B:タービン翼断面(出力面湾曲少断面) 4C:タービン翼断面(出力面直線断面) 4D:タービン翼断面(出力反対面直線断面) 4E:タービン翼断面(出力反対面湾曲少断面) 4F:タービン翼断面(既存の反対断面) 4X:タービン翼断面(4A〜4Fより選択断面) 5C:空気排気室、 6:ノズル、 6a:ノズル噴射部、 6b:ノズル噴射部、 6d:ノズル噴射部、 6z:水噴射ポンプ、 6F:圧縮空気噴射ノズル、 7:燃料噴射弁、 7A:プロペラ、 7B:回転翼、 7C:スクリュー、 8a:全動翼弾み車ガスタービン(全動翼ガスタービン)、 8b:全動翼弾み車水タービン(全動翼水タービン)、 8c:タービン翼、 8d:側板、 8e:円筒胴、 8E:全動翼弾み車水銀タービン(全動翼水銀タービン)8F:全動翼弾み車重力タービン、8G:竪型全動翼重力太陽熱タービン、 8K:対向直列全動翼弾み車タービン(対向直列全動翼弾み車水銀タービン対向直列全動翼弾み車水タービン対向直列全動翼弾み車ガスタービン対向直列全動翼弾み車重力タービン)、 8L:直列全動翼弾み車タービン(直列全動翼弾み車水銀タービン直列全動翼弾み車水タービン直列全動翼弾み車ガスタービン直列全動翼弾み車重力タービン)、 10:船体、 10a:拡径圧縮室、11A:隔壁、 11B:水室 11C:空気室、 16:クランク軸、21:拡径ピストン、24:燃焼ガス制御弁、 24A:圧縮空気制御弁、 25:過熱蒸気制御弁、 25B:高温水制御弁、 25:吸気弁、 25b:燃料制御弁、 28a:空気、 28a:内部空気、 28a:空気管空気、 28b:圧縮空気熱量、 28A:吸入空気路、 28B:空気路入口、 37a:着磁摩擦車、 37b:内着磁摩擦車、 38B:空気噴射船舶、 39A:太陽熱重力飛行機、 39B:太陽重力回転飛行機、 39C:太陽熱重力ヘリコプター、 39D:スクリュー船舶、 46:磁石部、 49:燃焼ガス、 49B:煙突燃焼ガス熱量、 49C:工場使用熱量、 50:過熱蒸気、 51:空気抽出器、 52a:水、 52b:水(太陽光で温度が変る水) 52b:高温水、 52d:温熱、 52d:水温熱、 52d:過熱蒸気温熱、 52e:冷熱、 52e:水冷熱、 52e:圧縮空気冷熱、 52e:アルコール冷熱、 52e:氷冷熱、 55:歯車式同期装置、 55B:磁気摩擦変速装置(歯車式及び送水ポンプ兼用を含む) 55Y:歯車式変速装置(既存変速機から選択) 60A:内側軸装置、 60B:外側軸装置、 60C:内側動翼群、 60D:外側軸群、 77B:筒形外箱、 77a:タービン外箱、 78K:合体機関噴射部、 79M:ウォータージェット、 80:軸受、 80a:推力軸受、 80A:継手、 80B:締付具、 81:支軸、 81a:支点、84:二重反転磁気摩擦動力伝達装置(歯車式及び送水ポンプ兼用を含む) 84Y:二重反転歯車装置(既存技術) 94:固定外箱、 94A:外箱垂直部、 95:高温水溜、 95a:燃焼ガス溜、 95b:圧縮空気溜、 95A:吸水路、 95B:燃料溜、 96A:送水路、 97:逆止弁、103:冷熱回収器、   DESCRIPTION OF SYMBOLS 1: Generator, 1A: Mercury exhaust test room, 1B: Oxygen amount increasing means, 1C: Alcohol cold heat, 1D: Fuel injection pump, 1F: Water pump, 1G: Heat pump, 1H: Pumping pump, 1b: Fuel, 1c 1d: Mercury, 1e: Coated steel ball (coated with impact reducing means 2G) 1e: Coated mercury (coated with durable material such as spherical stainless steel or impact reducing means 2G) 1g: Gravity acceleration part, 2: Sun 2a: Condenser, 2b: Solar thermal increase suspension bridge (tracking by tilting and rotating the sun with multiple long lenses by moving up and down the left and right sides of the suspension) 2c : Heat insulating material, 2d: long lens, 2e: water surface, 2f: hanger left, 2g: hanger right, 2A: heat-resistant material, 2B: heat absorbing material, 2C: compression heat recovery device, 2D: output increasing means, 2E : Sphere with increased output (mercury / water・ Platinum balls ・ Coated platinum balls ・ Gold balls ・ Coated gold balls ・ Platinum alloy balls ・ Gold alloy balls ・ Lead alloy balls ・ Silver alloy balls ・ Coated platinum alloy balls ・ Coated gold alloy balls ・ Coated lead balls ・ Coated silver alloy balls ・ Tungsten Alloy balls, coated tungsten alloy balls, tungsten steel balls, coated tungsten steel balls, tantalum alloy balls, coated tantalum alloy balls, molybdenum steel balls, coated molybdenum steel balls, molybdenum cast iron balls, coated molybdenum cast iron balls, silver balls, coated silver balls 2F: Intensifying sphere raising device, 2G: Impact reduction means (Coating with small-diameter spheres, lubricating oils, incombustible liquids, rubbers, plastics, etc.) 2H: Cold condenser, airfoil solar heater, 2Y: Water heat exchanger, 2Z: Mercury heat exchanger, 3: Friction loss reduction means (reducing friction loss by optimal use such as water repellency, heating high temperature means, and coating and mixing of known technical lubricating materials) 3A: Water repellency (Friction loss with water Loss reduction means) 3B: High temperature heating means (high temperature by existing technology such as electric resistance and electromagnetic heating) 3C: Cold recovery means 3G: Water repellent action (friction loss reduction means) 4A: Turbine blade cross section (existing cross section) 4B : Turbine blade cross section (output surface curved small cross section) 4C: turbine blade cross section (output surface straight cross section) 4D: turbine blade cross section (output opposite surface straight cross section) 4E: turbine blade cross section (output opposite surface curved small cross section) 4F: turbine Blade cross section (existing opposite cross section) 4X: Turbine blade cross section (selected cross section from 4A to 4F) 5C: Air exhaust chamber, 6: Nozzle, 6a: Nozzle injection section, 6b: Nozzle injection section, 6d: Nozzle injection section, 6z : Water injection pump, 6F: Compressed air injection nozzle, 7: Fuel injection valve, 7A: Propeller, 7B: Rotating blade, 7C: Screw, 8a: Full blade impeller gas turbine (All-blade gas turbine), 8b: All-blade flywheel water turbine (all-blade water turbine), 8c: Turbine blade, 8d: Side plate, 8e: Cylindrical cylinder, 8E: All-blade flywheel mercury turbine (all-blade) Mercury turbine) 8F: All-blade flywheel gravity turbine, 8G: Vertical all-blade gravity solar thermal turbine, 8K: Opposite series full-blade pusher turbine (opposite series full-blade pusher mercury turbine opposite series all-blade flywheel opposite water turbine Series full blade impeller gas turbine opposed series full blade impeller gravity turbine), 8L: Series full blade impeller turbine (series full blade propeller mercury turbine series full bucket impeller water turbine series full bucket propeller gas turbine series full motion 10: Hull, 10a: Expanded compression chamber, 11A: Bulkhead, 11B: Water chamber 11C: Air chamber, 16: Crankshaft, 21: Expanded Diameter piston, 24: Combustion gas control valve, 24A: Compressed air control valve, 25: Superheated steam control valve, 25B: High temperature water control valve, 25: Intake valve, 25b: Fuel control valve, 28a: Air, 28a: Internal air 28a: Air pipe air, 28b: Compressed air calorie, 28A: Intake air passage, 28B: Air passage inlet, 37a: Magnetized friction wheel, 37b: Inner magnetized friction wheel, 38B: Air-injected ship, 39A: Solar thermal gravity Airplane, 39B: Solar gravity rotating airplane, 39C: Solar thermal gravity helicopter, 39D: Screw ship, 46: Magnet part, 49: Combustion gas, 49B: Chimney combustion gas calorie, 49C: Factory calorie, 50: Superheated steam, 51: Air extractor, 52a: Water, 52b: Water (water whose temperature changes due to sunlight) 52b: High-temperature water, 52d: Heat, 52d: Water heat 52d: superheated steam temperature, 52e: cold heat, 52e: water cold heat, 52e: compressed air cold heat, 52e: alcohol cold heat, 52e: ice cold heat, 55: gear type synchronizer, 55B: magnetic friction transmission (gear type and water pump) 55Y: Gear-type transmission (selected from existing transmission) 60A: Inner shaft device, 60B: Outer shaft device, 60C: Inner blade group, 60D: Outer shaft group, 77B: Cylindrical outer box, 77a : Turbine outer box, 78K: Combined engine injection part, 79M: Water jet, 80: Bearing, 80a: Thrust bearing, 80A: Joint, 80B: Fastening tool, 81: Support shaft, 81a: Support point, 84: Double reversal Magnetic friction power transmission device (including gear type and water pump) 84Y: Counter-rotating gear device (existing technology) 94: Fixed outer box, 94A: Outer box vertical part 95: High temperature water reservoir, 95a: Combustion gas reservoir, 95b: Compressed air reservoir, 95A: Water intake channel, 95B: Fuel reservoir, 96A: Water supply channel, 97: Check valve, 103: Cold recovery device,

Claims (5000)

タービン翼断面(4A)を2〜26倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 2 to 26 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + ball increase device (2F) small diameter output increase sphere (2E) impact reduction means (2G) is used for ascending storage + friction reduction by coating and mixing of lubricating materials + various energy storage cycle coalescing engines that accelerate heavy substances in the vacuum direction and generate electricity with one turbine. タービン翼断面(4B)を5倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase sphere (2E) impact reduction means (2G + Ascending storage and use + Reducing friction by coating and mixing of lubricating materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single turbine タービン翼断面(4C)を6倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G + Ascending and storage use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescing engines that generate heavy substances with a single turbine as accelerated rolling contact in a vacuum direction. タービン翼断面(4D)を7倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase sphere (2E) impact reduction means (2G + Ascending storage use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescing engines that generate heavier substances with a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4E)を8倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is 8 times specific material gravity power generation Seawater temperature rise 0 Fuel cost 0 CO2 Exhaust 0 Increase power generation + Increase ball riser (2F) Small diameter output increase ball (2E) Impact reduction means (2G + Ascending storage use + Friction reduction by lubrication material coating and mixing + Various energy storage cycle coalescence engine that accelerates heavy substances with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4F)を9倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4A)を10倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 10 times the specific material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を11倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 11-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を12倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 12 times specific material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4D)を13倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate mercury vertically downward + Shift from theoretical best engine to best experimental result + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4E)を14倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times greater specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4F)を15倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を16倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from theoretical best engine to best experimental result + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を17倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate mercury vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4C)を18倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4D)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery-powered various ship primes + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) with a 21 times specific material gravity power generation turbine in multiple stages to accelerate the covered mercury vertically downwards + to make the storage battery driven various ships prime Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 22 times specific material gravity power generation turbines in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) with 23 times specific gravity material gravity power generation turbines in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 24 times greater specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ship primes + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4D)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross-section (4D) of 25 times + accelerating various battery-powered vessels + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を26倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross-section (4E) of 26 times in the vertical direction. Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4F) + storage battery-powered various ship priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4A)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) is three times more specific material gravity power generation turbines are arranged in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various vessels primed + with a rising sphere lift (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を4の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 4 specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + battery powered by various vessels + small sphere riser (2F) small diameter The output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavier substances are accelerated in the vacuum direction to generate electricity with one type of turbine Combined organization. タービン翼断面(4C)を5倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4C) + acceleration of storage battery-driven vessels Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4D)を6倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross-section (4D) + accelerating the storage battery-powered various ships + with the increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4E)を7倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4E) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を8倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4F) + storage battery-powered various ship priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4A)を9倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 9-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery powered various ships primed + intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を10倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4B) + acceleration of the storage battery-powered various ships + increasing sphere raising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4C)を11倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4C) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を12倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4D) + acceleration of the storage battery-powered various ships + increasing sphere raising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4E)を13倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material power generation turbines with 13 times the turbine blade cross section (4E) + acceleration of the storage battery-powered vessels + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4F)を14倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4F) + acceleration of the storage battery driven vessels + increasing sphere lifting device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4A)を15倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 15-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を16倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 16 times the turbine blade cross section (4B) + accelerating the storage battery-powered various vessels + Intensifying sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4C)を17倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 17-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various vessels primed + with an increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4D)を18倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 18-times specific gravity material gravity power generation turbines with a turbine blade cross-section (4D) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross-section (4E) with a 19-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery-powered various ships primed + with an increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 20 times the turbine blade cross section (4F) + acceleration of the storage battery-powered vessels + increasing ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4A)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 21 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery powered various ships primed + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4B)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 22 times specific gravity material Gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + battery powered by various vessels + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships primed + with a rising sphere lift (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4E)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4E) of 25 times in the vertical direction + With the sphere rising device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4F)を26倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 26 times the turbine blade cross section (4F) + storage battery-powered various ship priming + increasing ball rising device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4A)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4A) + acceleration of the storage battery driven vessels + increasing sphere lifting device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4B)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + Intensifying sphere climbing device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4C)を4倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result + Incremental ball lift device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with the impact reduction means (2G) to save and save + Reduce friction by coating and mixing with lubricious material + Accelerate heavy substances in the vacuum direction Various energy storage cycle coalescence engines that generate electricity with one type of turbine. タービン翼断面(4D)を5倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Heavier substances in the vacuum direction Various energy storage cycle coalescence engine that accelerates and generates electricity with one kind of turbine. タービン翼断面(4E)を6倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material power generation turbines with 6 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Incremental ball lift device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with the impact reduction means (2G) to save and save + Reduce friction by coating and mixing with lubricious material + Accelerate heavy substances in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with one kind of turbine as rolling contact. タービン翼断面(4F)を7倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine result + Intensifying ball lifting device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Heavier substances in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with one kind of turbine as accelerated rolling contact. タービン翼断面(4A)を8倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 8 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device (2F ) Increase head drop + Increase ball increase device (2F) Use small diameter output increase sphere (2E) ascending and storage with impact reduction means (2G) + Reduce friction by covering and mixing lubricant material + Impact reduction means for heavy substances Various energy storage cycle coalescence engine that accelerates with (2G) and generates electricity with one kind of turbine. タービン翼断面(4B)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4C)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing 11 stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4D) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4F)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4A)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 14 times specific material gravity power generation equipment method to make all turbine blades + power increase sphere (2E) small diameter + accelerate friction + lubrication coating and mixing reduce friction + heavy Various energy storage cycle coalescence engine that accelerates the material in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4B)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 15 times specific material mass generation power generation equipment method to make all turbine blades + power increase sphere (2E) is accelerated with small diameter + friction reduction by coating and mixing of lubricating material + Various energy storage cycle coalescing engines that generate heavy substances in the vacuum direction and generate electricity with one kind of turbine. タービン翼断面(4C)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 16 times specific critical material gravity power generation equipment method to make all turbine blades + power increase sphere (2E) small diameter + Accelerate with small diameter coating + Mixing with lubrication material + Heavy Various energy storage cycle coalescing engines that generate electricity with a single type of turbine as a material in a vacuum accelerated rolling contact. タービン翼断面(4D)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 17 times specific material mass generation power generation equipment method to make all turbine blades + power increase sphere (2E) with small diameter to accelerate + friction reduction with lubrication material coating and mixing + Various energy storage cycle coalescing engines that generate heavy substances as a vacuum-accelerated rolling contact and generate electricity with one type of turbine. タービン翼断面(4E)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 18 times specific material gravity power generation equipment generation method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter coating + mixing with lubricious material + Heavy Various energy storage cycle coalescence engine that accelerates substances together with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4F)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 19-times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the specific material in the vertical direction + power increasing sphere (2E) with small diameter + accelerating turbine drive + lubricity Friction reduction by coating and mixing of materials + Combined engine of various energy storage cycles that accelerates heavy substances in the vacuum direction and generates electricity with one type of turbine. タービン翼断面(4A)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the specific critical material vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4A) of 20 times + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Lubricity Friction reduction by coating and mixing of materials + Combined engine of various energy storage cycles to generate power with one kind of turbine by accelerating heavier substances in the vacuum direction. タービン翼断面(4B)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the specific critical material vertically downward by providing multiple stages of specific critical material gravity power generation turbines with 21 times the turbine blade cross section (4B) + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Lubricity Friction reduction by coating and mixing of materials + Combined engine of various energy storage cycles to generate electricity with one kind of turbine as a heavy accelerated substance in the vacuum direction in rolling contact. タービン翼断面(4C)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the specific critical material vertically downward by providing multiple stages of specific critical material gravity power generation turbines with 22 times the turbine blade cross section (4C) + Accelerated turbine driving with a small diameter of the output increasing sphere (2E) + Lubricity Friction reduction by coating and mixing of materials + Combined engine of various energy storage cycles to generate electricity with one kind of turbine as heavier substances in accelerated contact in the vacuum direction. タービン翼断面(4D)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating specific critical materials vertically downward by providing multiple stages of specific critical material gravity power generation turbines with 23 times the turbine blade cross section (4D) + Accelerating turbine drive with a small diameter of the output increasing sphere (2E) + Lubricity Friction reduction by coating and mixing of materials + Combined engine of various energy conservation cycles that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4E)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the coating ratio critical material vertically downward + Fully electrified house prime + Increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4F) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4A)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4A) is a 26-fold specific gravity material gravity power generation turbine installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4B) + the entire electrified house prime + with the increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4C)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating ratio critical material vertically downward by providing the turbine blade cross section (4C) three times the specific material gravity power generation turbine in multiple stages + Fully electrified house prime + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4E)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 5 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 6 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery-powered various vehicles prime + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity sphere (2E), which is 7 times the specific gravity material gravity power generation output sphere (2E), vertically downward by gravitational acceleration, + accelerating various battery-powered automobiles, + sphere rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4B)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4C)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross-section (4C) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4D)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4E) + Shifting from the theoretical best engine to the best experimental result engine + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4F)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4A)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4B)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 14 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4C)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 15 times specific critical material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4D)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4E)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4F)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 18 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4A)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4B)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 21 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4D)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 22-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4E)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 23 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4F)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4A)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4A) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material in the vertical downward direction. Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4B)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4B) with a 26 times specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material vertically vertically + full electrified house prime + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4C)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4C) + full electrification house rise + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4D)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4D) + full electrification of the house + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4E)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gravity sphere (2E) with a gravity acceleration to the vertical direction of the turbine blade cross-section (4E) four times higher + Gravity acceleration + accelerating various battery-powered vehicles + Increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4F)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 5 times specific material Gravity power generation output increase sphere (2E) structure and method to accelerate vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 6 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 7-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4C)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 8 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4D)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity turbines with 9 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4E)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross section (4E) with 10 times specific material gravity power generation turbines + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine experimental result + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 12-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4B)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4C)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 14 times specific critical material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4D)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4E)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4F)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 17 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball increase device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4A)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4B)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Intensifying ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4C)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 21-times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result of experiment + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4F)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4A)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4C)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4C) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio of critical material vertically downwards + full electrified house prime + increase ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4D) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4E) + full electrification house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity-power-generating output sphere (2E), which is four times the specific material of the turbine blade cross-section (4F) vertically downward by gravitational acceleration, + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4A)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 5 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 6-fold specific critical material gravity power generation output increasing sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 7-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4D)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 8 times specific material gravity power generation output increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4E)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4F)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross-section (4F) with 10 times the specific material gravity power generation turbine + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4B)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 12-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4C)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result of experiment + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4D)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 14 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4E)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 15 times the specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4F)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4A)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4B)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4C)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 19-fold specific critical material gravity power generation turbine is installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4D)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 20-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 21 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4F)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 22-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4A)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4B)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate coverage material seriously vertically downward + Fully electrified house prime + Increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4C)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross-section (4C) + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4D)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4D) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4E)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4E) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4F)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4F) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4A)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity-power-generating output sphere (2E), which is four times the specific material of the turbine blade cross section (4A), vertically downward by gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4B)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times specific material Gravity power generation output increase sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + storage battery driven various vehicles prime + increase sphere ascent device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4E)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4F)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4A)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross section (4A) with 10 times the specific material gravity power generation turbine + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4B) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4C)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4D)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result + Incremental ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4E)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4F)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4A)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4B)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4C)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times specific critical material gravity power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4D)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Transfer from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4E)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental best result engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4B)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4C)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the covering ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4D)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4D) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage specific material vertically downward + make the whole electrified house prime + with a rising ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4E)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4E) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4F)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4F) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4A)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing the turbine blade cross section (4A) with three times the specific gravity material gravity power generation turbine in multiple stages + Fully electrified house prime + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4B)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity power generation output sphere (2E), which is four times as high as the specific gravity material gravity power generation section of the turbine blade cross section (4B), + acceleration of the various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4C)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 5 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 6 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4F)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 8 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4A)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing a turbine blade cross section (4A) with multiple stages of specific gravity material gravity power generation turbines with 9 times the specific gravity + Shifting from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4B)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 10-times specific gravity material gravity power generation turbines with a turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result of the experiment + Incremental ball lifting device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result of experiment + Increased ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4D)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4D) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4E)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4E) + Shifting from the theoretical best engine to the best engine result + Intensifying ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4F)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 14 times specific critical material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4A)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 15 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4B)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4C)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 17 times specific material gravity generation output generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4D)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 18 times specific gravity material Gravitational power output generation Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4E)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4F)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase sphere lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 21-times specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4B)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4C)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 23 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4D)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4E) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrification house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4F) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material in the vertical downward direction. Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4A) + full electrification of the house + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4B) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gravity power generation output sphere (2E) with the gravity acceleration of the turbine blade cross section (4C) four times vertically by gravity acceleration + making the battery-powered various automobiles primed + the increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4D)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 5 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 6 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 7 times specific material Gravity power generation output increase sphere (2E) structure and method to accelerate vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4A)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 8 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4B)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4C)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing 11 stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4D) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4F)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4A)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4B)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 15 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4C)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4D)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4E)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 18 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4F)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4A)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 20-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 21-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4C)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 22-fold specific critical material gravity power generation turbine is installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4D)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 23 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4E)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the coating ratio critical material vertically downward + Fully electrified house prime + Increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4F) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4A)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4A) is a 26-fold specific gravity material gravity power generation turbine installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4B) + the entire electrified house prime + with the increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4C)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating ratio critical material vertically downward by providing the turbine blade cross section (4C) three times the specific material gravity power generation turbine in multiple stages + Fully electrified house prime + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4E)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 5 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 6 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery-powered various vehicles prime + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity sphere (2E), which is 7 times the specific gravity material gravity power generation output sphere (2E), vertically downward by gravitational acceleration, + accelerating various battery-powered automobiles, + sphere rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4B)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4C)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross-section (4C) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4D)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4E) + Shifting from the theoretical best engine to the best experimental result engine + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4F)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4A)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4B)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 14 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4C)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 15 times specific critical material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4D)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4E)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4F)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 18 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4A)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4B)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 21 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4D)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 22-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4E)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 23 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4F)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4A)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4A) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material in the vertical downward direction. Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4B)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4B) with a 26 times specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material vertically vertically + full electrified house prime + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4C)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4C) + full electrification house rise + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4D)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4D) + full electrification of the house + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4E)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gravity sphere (2E) with a gravity acceleration to the vertical direction of the turbine blade cross-section (4E) four times higher + Gravity acceleration + accelerating various battery-powered vehicles + Increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4F)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 5 times specific material Gravity power generation output increase sphere (2E) structure and method to accelerate vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 6 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 7-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4C)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 8 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4D)を9倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 9 times specific critical material gravity power generation output increasing sphere (2E) with vacuum configuration and method for vacuuming and accelerating vertically + storage battery driven vehicles + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を10倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E), which is 10 times the specific gravity material gravity power generation output of the turbine blade cross section (4E), vertically + in the various battery-powered vehicles + the increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を11倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of sucking and accelerating the gravity sphere (2E), which is 11 times higher in specific gravity material gravity power generation output, in the vacuum vertically below the turbine blade cross section (4F) + various battery-powered vehicles + the increasing sphere raising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を12倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4A) is 12 times higher in specific gravity material gravity power generation output sphere (2E) by vacuuming and accelerating vertically downward with a + charged battery drive vehicle + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を13倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of sucking and accelerating the gravity sphere (2E) with a 13-fold specific critical substance gravity power generation output increasing sphere (2E) vertically under vacuum + various battery-powered vehicles + an increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を14倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) with a 14-fold specific gravity material gravity power generation output sphere (2E) vertically downward in a vacuum + various battery-powered vehicles + an increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4D)を15倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of sucking and accelerating the gravity sphere (2E), which is 15 times the specific gravity material gravity power generation output sphere (2E), in the vacuum vertically with the turbine blade cross section (4D) + various battery-driven vehicles + the increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4E)を16倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A configuration and method for sucking and accelerating the gravity sphere (2E), which is 16 times the specific gravity material gravity power generation output, in the vacuum vertically with a turbine blade cross section (4E) + various battery-powered vehicles + an increasing sphere raising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4F)を17倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The turbine blade cross-section (4F) is 17 times higher in specific gravity material gravity power generation output sphere (2E) by vacuuming and accelerating vertically downward with a construction + method + storage battery drive various vehicles + increase sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4A)を18倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4A) is 18 times higher in specific gravity material gravity power generation output increasing sphere (2E) by vacuuming and accelerating vertically downward with a + chargeable battery drive vehicle + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4B)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4C)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 20 times the specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4D)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) with a 21-fold specific gravity material gravity power generation turbine installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships primed + intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4E)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 22 times specific gravity material Gravitational power generation turbines are arranged in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships prime + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4F)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 23 times larger specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery powered various ships primed + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4A)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 24 times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4B) of 25 times in the vertical direction. Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4C)を26倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 26-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4C) + accelerating various battery-powered vessels + with an increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4D)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4D) + acceleration of the storage battery-driven vessels + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with triple the turbine blade cross section (4E) + storage battery-powered various ship priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を4倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross-section (4F) + accelerating the storage battery-powered various ships + with an increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4A)を5倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 5 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4B)を6倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4B) + accelerating the storage battery-powered various vessels + Intensifying sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4C)を7倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 7-fold specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ship primes + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4D)を8倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated mercury vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 8 times the turbine blade cross section (4D) + accelerating various battery-powered vessels + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4E)を9倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 9 times specific gravity material Gravity power generation turbines are arranged in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4F)を10倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material power generation turbines with 10 times the turbine blade cross section (4F) + acceleration of the storage battery driven various vessels + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を11倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4A) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を12倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4B) + acceleration of the storage battery-powered vessels + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4C)を13倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 13-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4C) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を14倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 14 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ship primes + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を15倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 15 times the turbine blade cross section (4E) + acceleration of the storage battery-powered vessels + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4F)を16倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 16 times the turbine blade cross-section (4F) + accelerating the storage battery-powered various vessels + with the increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4A)を17倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 17 times specific material gravity power generation turbines in multiple stages, structure and method to accelerate the covered mercury vertically downward + acceleration of storage battery driven various ships + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を18倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4C)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 19 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery powered various ships primed + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 20 times the specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various vessels primed + with an increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4E)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) with 21 times specific material gravity power generation turbines in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 22 times specific material gravity power generation turbines in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4A)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 23 times specific material gravity power generation turbines in multiple stages to accelerate the covered mercury vertically downwards + to make the storage battery driven various ships prime The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4b)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4b) 24 times higher specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4C)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4C) of 25 times in the vertical direction + With the sphere rising device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4D)を26倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 26 times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate the covered mercury vertically downward + battery powered by various vessels + intensifying ball lift device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4E)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with double the turbine blade cross section (4E) + storage battery-powered various ship priming + increasing ball rising device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4F)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material power generation turbines with triple the turbine blade cross section (4F) + acceleration of the storage battery-powered vessels + increasing ball rising device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4A)を4倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4A) + Shifting from the theoretical best engine to the best experimental result + Increase ball rising device (2F ) Ascend the head as much as possible + Increase the sphere rising device (2F) and use the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and use + Reduce friction by coating and mixing with lubricious materials + Heavy substances Various energy storage cycle coalescing engines that generate electricity with one type of turbine by accelerating in the vacuum direction. タービン翼断面(4B)を5倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result of experiment + Increasing ball lifting device (2F ) To raise the head as much as possible + increase and use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) with an increasing sphere rising device (2F) + reduce friction by coating and mixing with a lubricious material + heavier Various energy storage cycle coalescing engines that generate electricity with one type of turbine by accelerating the material in the vacuum direction. タービン翼断面(4C)を6倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of gravity-critical turbines with a specific material 6 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result + Incremental ball lifting device (2F ) Ascend the head as much as possible + Increase the sphere rising device (2F) and use the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and use + Reduce friction by coating and mixing with lubricious materials + Heavy substances Various energy storage cycle coalescing engines that generate electricity with a single type of turbine as vacuum-accelerated rolling contact. タービン翼断面(4D)を7倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device (2F ) To raise the head as much as possible + increase and use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) with an increasing sphere rising device (2F) + reduce friction by coating and mixing with a lubricious material + heavier Various energy storage cycle coalescing engine that generates electricity with one kind of turbine as a vacuum accelerated rolling contact. タービン翼断面(4E)を8倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downwards by installing multiple stages of gravity-critical turbines with 8 times the critical material gravity turbine turbine cross section (4E) + Shifting from the theoretical best engine to the best engine result + Incremental ball lifting device (2F ) Ascend the head as much as possible + Increase the sphere rising device (2F) and use the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and use + Reduce friction by coating and mixing with lubricious materials + Heavy substances Various energy storage cycle coalescing engines that generate power with one type of turbine by accelerating the engine together with impact reduction means (2G). タービン翼断面(4F)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4A)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross section (4A) with 10 times the specific material gravity power generation turbine + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4B) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4C)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4D)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result + Incremental ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4E)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4F)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4A)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4B)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4C)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times specific critical material gravity power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4D)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Transfer from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4E)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental best result engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4B)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4C)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the covering ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4D)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4D) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage specific material vertically downward + make the whole electrified house prime + with a rising ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4E)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4E) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4F)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4F) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4A)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing the turbine blade cross section (4A) with three times the specific gravity material gravity power generation turbine in multiple stages + Fully electrified house prime + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4B)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity power generation output sphere (2E), which is four times as high as the specific gravity material gravity power generation section of the turbine blade cross section (4B), + acceleration of the various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4C)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 5 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 6 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4F)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 8 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4A)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material power generation turbines with 9 times the turbine blade cross section (4A) + acceleration ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4B) + acceleration ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4C)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4C) + acceleration ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4D) + acceleration ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4E) + acceleration ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 14 times specific critical material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4A)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 15 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4B)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4C)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 17 times specific material gravity generation output generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4D)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 18 times specific gravity material Gravitational power output generation Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4E)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4F)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase sphere lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 21-times specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4B)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4C)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 23 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4D)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4E) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrification house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4F) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material in the vertical downward direction. Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4A) + full electrification of the house + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4B) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gravity power generation output sphere (2E) with the gravity acceleration of the turbine blade cross section (4C) four times vertically by gravity acceleration + making the battery-powered various automobiles primed + the increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4D)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 5 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 6 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 7 times specific material Gravity power generation output increase sphere (2E) structure and method to accelerate vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4A)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 8 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4B)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4C)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing 11 stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4D) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4F)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4A)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4B)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 15 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4C)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4D)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4E)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 18 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4F)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4A)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 20-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 21-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4C)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 22-fold specific critical material gravity power generation turbine is installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4D)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 23 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4E)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the coating ratio critical material vertically downward + Fully electrified house prime + Increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4F) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4A)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4A) is a 26-fold specific gravity material gravity power generation turbine installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4B) + the entire electrified house prime + with the increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4C)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating ratio critical material vertically downward by providing the turbine blade cross section (4C) three times the specific material gravity power generation turbine in multiple stages + Fully electrified house prime + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4E)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 5 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 6 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery-powered various vehicles prime + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity sphere (2E), which is 7 times the specific gravity material gravity power generation output sphere (2E), vertically downward by gravitational acceleration, + accelerating various battery-powered automobiles, + sphere rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4B)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4C)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross-section (4C) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4D)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4E) + Shifting from the theoretical best engine to the best experimental result engine + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4F)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4A)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4B)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 14 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4C)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 15 times specific critical material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4D)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4E)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4F)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 18 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4A)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4B)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 21 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4D)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 22-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4E)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 23 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4F)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4A)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4A) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material in the vertical downward direction. Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4B)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4B) with a 26 times specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material vertically vertically + full electrified house prime + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4C)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4C) + full electrification house rise + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4D)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4D) + full electrification of the house + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4E)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gravity sphere (2E) with a gravity acceleration to the vertical direction of the turbine blade cross-section (4E) four times higher + Gravity acceleration + accelerating various battery-powered vehicles + Increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4F)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 5 times specific material Gravity power generation output increase sphere (2E) structure and method to accelerate vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 6 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 7-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4C)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 8 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4D)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity turbines with 9 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4E)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross section (4E) with 10 times specific material gravity power generation turbines + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine experimental result + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 12-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4B)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4C)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 14 times specific critical material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4D)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4E)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4F)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 17 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball increase device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4A)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4B)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Intensifying ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4C)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 21-times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result of experiment + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4F)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4A)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4C)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4C) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio of critical material vertically downwards + full electrified house prime + increase ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4D) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4E) + full electrification house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity-power-generating output sphere (2E), which is four times the specific material of the turbine blade cross-section (4F) vertically downward by gravitational acceleration, + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4A)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 5 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 6-fold specific critical material gravity power generation output increasing sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 7-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4D)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 8 times specific material gravity power generation output increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4E)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4F)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross-section (4F) with 10 times the specific material gravity power generation turbine + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4B)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 12-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4C)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result of experiment + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4D)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 14 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4E)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 15 times the specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4F)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4A)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4B)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4C)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 19-fold specific critical material gravity power generation turbine is installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4D)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 20-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 21 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4F)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 22-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4A)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4B)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate coverage material seriously vertically downward + Fully electrified house prime + Increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4C)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross-section (4C) + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4D)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4D) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4E)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4E) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4F)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4F) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4A)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity-power-generating output sphere (2E), which is four times the specific material of the turbine blade cross section (4A), vertically downward by gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4B)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times specific material Gravity power generation output increase sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + storage battery driven various vehicles prime + increase sphere ascent device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4E)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4F)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4A)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross section (4A) with 10 times the specific material gravity power generation turbine + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4B) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4C)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4D)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result + Incremental ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4E)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4F)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4A)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4B)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4C)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times specific critical material gravity power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4D)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Transfer from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4E)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental best result engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4B)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4C)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the covering ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4D)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4D) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage specific material vertically downward + make the whole electrified house prime + with a rising ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4E)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4E) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4F)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4F) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4A)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing the turbine blade cross section (4A) with three times the specific gravity material gravity power generation turbine in multiple stages + Fully electrified house prime + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4B)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity power generation output sphere (2E), which is four times as high as the specific gravity material gravity power generation section of the turbine blade cross section (4B), + acceleration of the various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4C)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 5 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 6 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4F)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 8 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4A)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing a turbine blade cross section (4A) with multiple stages of specific gravity material gravity power generation turbines with 9 times the specific gravity + Shifting from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4B)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 10-times specific gravity material gravity power generation turbines with a turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result of the experiment + Incremental ball lifting device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result of experiment + Increased ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4D)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4D) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4E)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4E) + Shifting from the theoretical best engine to the best engine result + Intensifying ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4F)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 14 times specific critical material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4A)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 15 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4B)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4C)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 17 times specific material gravity generation output generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4D)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 18 times specific gravity material Gravitational power output generation Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4E)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4F)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase sphere lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 21-times specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4B)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4C)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 23 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4D)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4E) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrification house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4F) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material in the vertical downward direction. Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4A) + full electrification of the house + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4B) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gravity power generation output sphere (2E) with the gravity acceleration of the turbine blade cross section (4C) four times vertically by gravity acceleration + making the battery-powered various automobiles primed + the increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4D)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 5 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 6 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 7 times specific material Gravity power generation output increase sphere (2E) structure and method to accelerate vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4A)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 8 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4B)を9倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 9 times specific gravity substance gravity power generation output increase sphere (2E) with vacuum construction and method of vacuuming and accelerating vertically downward + turbine drive with specific gravity substance + increase sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4C)を10倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the specific gravity material gravity power generation output increasing sphere (2E) 10 times the turbine blade cross section (4C) vertically downward with the vacuum + the increasing sphere raising device (2F) driven by the specific critical material turbine Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4D)を11倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A configuration and method for sucking and accelerating the gravity sphere (2E) of the specific critical material gravity power generation output (2E) 11 times as large as the turbine blade cross section (4D) + with a positive sphere rising device (2F) driven by the turbine with the specific critical material Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4E)を12倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The turbine blade cross-section (4E) is 12 times the specific critical material gravity power generation output increasing sphere (2E) with a configuration and method for sucking and accelerating vertically downward in vacuum + with the specific critical material turbine driven + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4F)を13倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of sucking and accelerating the gravity-power-generating output increase sphere (2E) 13 times the specific critical material gravity power in the vacuum vertically with the turbine blade cross-section (4F) + the increased sphere rising device (2F) driven by the specific critical material turbine The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4A)を14倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A configuration and method for sucking and accelerating the gravity sphere (2E) with a 14-fold specific critical material gravity power generation output sphere (2E) vertically downward in a vacuum with a turbine blade driven by a specific critical material + an increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を15倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) with a specific critical material gravity power generation output (2E) 15 times lower than the turbine blade cross section (4B) + a turbine driving with a specific critical material + an increase sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4C)を16倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A configuration and method of sucking and accelerating the gravity-power-generating output increasing sphere (2E) of 16 times the critical material gravity in the vacuum vertically in the turbine blade cross section (4C) + with the increasing sphere rising device (2F) driven by the turbine with the specific material Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を17倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 17 times specific critical material gravity power generation output increasing sphere (2E) with vacuum construction and method of sucking and accelerating vertically downward + specific critical material turbine driven + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を18倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the specific gravity material gravity power generation output sphere (2E) 18 times higher in the turbine blade cross section (4E) in the vertical direction in the vacuum + the increased sphere rising device (2F) driven by the specific critical material turbine The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ship primaries + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4A)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 20 times the turbine blade cross section (4A) + storage battery-powered various ship priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4B)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) with 21 times specific material gravity power generation turbines installed in multiple stages to accelerate the covered mercury vertically downwards + to make the storage battery driven various ships prime Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4C)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 22 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ship primes + with an increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4D)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) with 23 times specific material gravity power generation turbines installed in multiple stages to accelerate the covered mercury vertically downward + acceleration of storage battery driven various ships + increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4E)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) with a 24 times specific material gravity power generation turbine in multiple stages and a structure and method for accelerating the coating mercury vertically downward + storage battery-powered various ships prime + with an increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4F) + acceleration of the storage battery-powered vessels + increasing sphere lifting device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4A)を26倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4A) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery-powered various ship primes + with an increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4B) + acceleration of the storage battery-driven vessels + increasing sphere lifting device (2F) Uses a small-diameter power increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction to generate electricity with a single turbine Combined organization. タービン翼断面(4C)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with triple the turbine blade cross section (4C) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) Uses a small-diameter power increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction to generate electricity with a single turbine Combined organization. タービン翼断面(4D)を4倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross-section (4D) + accelerating the storage battery-powered vessels + Intensifying sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4E)を5倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4E) + accelerating the storage battery-powered various vessels + Intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that accelerates heavier substances in the vacuum direction and generates electricity with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を6倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4F) + acceleration of the storage battery driven various vessels + increasing sphere lifting device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4A)を7倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4A) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4B)を8倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 8 times the turbine blade cross section (4B). Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4C)を9倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 9-fold specific material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downwards + storage battery-powered various ships primed + intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を10倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of gravity-critical turbines with 10 times the critical material gravity turbine turbine cross section (4D) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4E)を11倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4E) + accelerating various battery-powered vessels + intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4F)を12倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4F) + acceleration of the storage battery-driven vessels + intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を13倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 13-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4A) + accelerating storage battery-driven vessels Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を14倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4C)を15倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 15 times the turbine blade cross section (4C) + acceleration of the storage battery driven various vessels + increasing sphere lifting device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4D)を16倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) with a 16-fold specific gravity material gravity power generation turbine in multiple stages and a structure and method for accelerating the coating mercury vertically downwards + accelerating the storage battery-powered various ships + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を17倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 17-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships prime + with a rising sphere lift (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4F)を18倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 18-times specific gravity material gravity power generation turbines with a turbine blade cross-section (4F) + accelerating the storage battery-powered various ships + with an increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4A)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 19-times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downwards + to make the storage battery driven various ships prime + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4B)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 20 times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + Intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) with 21 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ship primes + with an increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 22 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ship primes + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4E)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) with a 23-fold specific gravity material gravity power generation turbine installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships primed + Intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 24 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4A)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4A) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ship primes + with an increasing ball rising device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4B)を26倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4B) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ship primes + with an increasing ball rising device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4C)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4C) + acceleration of the storage battery drive various vessels + increasing sphere lifting device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4D)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross-section (4D) + accelerating the storage battery-powered vessels + intensifying ball lift device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4E)を4倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with four times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with the impact reduction means (2G) to save and save + Reduce friction by coating and mixing with lubricious material + Accelerate heavy substances in the vacuum direction Various energy storage cycle coalescence engines that generate electricity with one type of turbine. タービン翼断面(4F)を5倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4F) + Shifting from the theoretical best engine to the best experimental result engine + Incremental ball lifting device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Heavier substances in the vacuum direction Various energy storage cycle coalescence engine that accelerates and generates electricity with one kind of turbine. タービン翼断面(4A)を6倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result + Intensifying ball lift device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with the impact reduction means (2G) to save and save + Reduce friction by coating and mixing with lubricious material + Accelerate heavy substances in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with one kind of turbine as rolling contact. タービン翼断面(4B)を7倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Heavier substances in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with one kind of turbine as accelerated rolling contact. タービン翼断面(4C)を8倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result + Incremental ball lifting device (2F ) Increase head drop + Increase ball increase device (2F) Use small diameter output increase sphere (2E) ascending and storage with impact reduction means (2G) + Reduce friction by covering and mixing lubricant material + Impact reduction means for heavy substances Various energy storage cycle coalescence engine that accelerates with (2G) and generates electricity with one kind of turbine. タービン翼断面(4D)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity turbines with 9 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4E)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross section (4E) with 10 times specific material gravity power generation turbines + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine experimental result + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 12-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4B)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4C)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 14 times specific critical material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4D)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4E)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4F)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 17 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball increase device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4A)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4B)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Intensifying ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4C)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 21-times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result of experiment + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4F)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4A)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4C)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4C) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio of critical material vertically downwards + full electrified house prime + increase ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4D) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4E) + full electrification house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity-power-generating output sphere (2E), which is four times the specific material of the turbine blade cross-section (4F) vertically downward by gravitational acceleration, + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4A)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 5 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 6-fold specific critical material gravity power generation output increasing sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 7-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4D)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 8 times specific material gravity power generation output increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4E)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4F)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross-section (4F) with 10 times the specific material gravity power generation turbine + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4B)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 12-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4C)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result of experiment + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4D)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 14 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4E)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 15 times the specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4F)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4A)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4B)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4C)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 19-fold specific critical material gravity power generation turbine is installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4D)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 20-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 21 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4F)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 22-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4A)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4B)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate coverage material seriously vertically downward + Fully electrified house prime + Increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4C)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross-section (4C) + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4D)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4D) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4E)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4E) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4F)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4F) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4A)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity-power-generating output sphere (2E), which is four times the specific material of the turbine blade cross section (4A), vertically downward by gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4B)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times specific material Gravity power generation output increase sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + storage battery driven various vehicles prime + increase sphere ascent device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4E)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4F)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4A)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross section (4A) with 10 times the specific material gravity power generation turbine + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4B) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4C)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4D)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result + Incremental ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4E)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4F)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4A)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4B)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4C)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times specific critical material gravity power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4D)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Transfer from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4E)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental best result engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4B)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 23-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4C)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the covering ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4D)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4D) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage specific material vertically downward + make the whole electrified house prime + with a rising ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4E)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4E) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4F)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4F) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4A)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing the turbine blade cross section (4A) with three times the specific gravity material gravity power generation turbine in multiple stages + Fully electrified house prime + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4B)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity power generation output sphere (2E), which is four times as high as the specific gravity material gravity power generation section of the turbine blade cross section (4B), + acceleration of the various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4C)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 5 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 6 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4F)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 8 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4A)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing a turbine blade cross section (4A) with multiple stages of specific gravity material gravity power generation turbines with 9 times the specific gravity + Shifting from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4B)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 10-times specific gravity material gravity power generation turbines with a turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result of the experiment + Incremental ball lifting device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result of experiment + Increased ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4D)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4D) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4E)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4E) + Shifting from the theoretical best engine to the best engine result + Intensifying ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4F)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 14 times specific critical material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4A)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 15 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4B)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) is 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4C)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 17 times specific material gravity generation output generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4D)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 18 times specific gravity material Gravitational power output generation Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4E)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4F)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase sphere lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 21-times specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4B)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4C)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 23 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4D)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4E) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrification house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4F) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material in the vertical downward direction. Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4A) + full electrification of the house + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4B) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gravity power generation output sphere (2E) with the gravity acceleration of the turbine blade cross section (4C) four times vertically by gravity acceleration + making the battery-powered various automobiles primed + the increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4D)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 5 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 6 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 7 times specific material Gravity power generation output increase sphere (2E) structure and method to accelerate vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4A)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 8 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4B)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4C)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing 11 stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4D) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4F)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4A)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4B)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 15 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4C)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4D)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4E)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 18 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4F)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4A)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 20-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4B)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4B) 21-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4C)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 22-fold specific critical material gravity power generation turbine is installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4D)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 23 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4E)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the coating ratio critical material vertically downward + Fully electrified house prime + Increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4F) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4A)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4A) is a 26-fold specific gravity material gravity power generation turbine installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4B) + the entire electrified house prime + with the increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4C)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating ratio critical material vertically downward by providing the turbine blade cross section (4C) three times the specific material gravity power generation turbine in multiple stages + Fully electrified house prime + Increase ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4E)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 5 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 6 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery-powered various vehicles prime + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity sphere (2E), which is 7 times the specific gravity material gravity power generation output sphere (2E), vertically downward by gravitational acceleration, + accelerating various battery-powered automobiles, + sphere rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4B)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4C)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross-section (4C) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4D)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4E) + Shifting from the theoretical best engine to the best experimental result engine + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4F)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4F) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4A)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4B)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 14 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4C)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 15 times specific critical material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4D)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4E)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4F)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 18 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4A)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4B)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4C)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 21 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4D)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 22-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4E)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 23 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4F)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4A)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4A) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material in the vertical downward direction. Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4B)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4B) with a 26 times specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio material vertically vertically + full electrified house prime + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4C)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4C) + full electrification house rise + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4D)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4D) + full electrification of the house + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4E)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gravity sphere (2E) with a gravity acceleration to the vertical direction of the turbine blade cross-section (4E) four times higher + Gravity acceleration + accelerating various battery-powered vehicles + Increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4F)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 5 times specific material Gravity power generation output increase sphere (2E) structure and method to accelerate vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4A)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 6 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 7-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4C)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 8 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4D)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity turbines with 9 times the turbine blade cross section (4D) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4E)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross section (4E) with 10 times specific material gravity power generation turbines + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4F)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4F) + Shifting from the theoretical best engine to the best engine experimental result + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 12-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4B)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4B) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4C)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 14 times specific critical material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4D)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4E)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4F)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 17 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball increase device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4A)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times specific gravity material Gravitational power generation output Equipment method to make all turbine blades + Increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4B)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Intensifying ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4C)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 20-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4D)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 21-times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result of experiment + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 22-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4F)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4A)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4B)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4C)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4C) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio of critical material vertically downwards + full electrified house prime + increase ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4D)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4D) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4E)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4E) + full electrification house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4F)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity-power-generating output sphere (2E), which is four times the specific material of the turbine blade cross-section (4F) vertically downward by gravitational acceleration, + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4A)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 5 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4B)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 6-fold specific critical material gravity power generation output increasing sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 7-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4D)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 8 times specific material gravity power generation output increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4E)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4E) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4F)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of turbine blade cross-section (4F) with 10 times the specific material gravity power generation turbine + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4A)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4A) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4B)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 12-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4C)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4C) + Shifting from the theoretical best engine to the best engine result of experiment + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4D)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 14 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4E)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 15 times the specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by covering and mixing lubricant materials + Accelerating heavier substances in the vacuum direction and generating electricity with a single type of turbine. タービン翼断面(4F)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball lift device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4A)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Various energy storage cycle coalescence engines that generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction. タービン翼断面(4B)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that accelerate heavy substances together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4C)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 19-fold specific critical material gravity power generation turbine is installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4D)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 20-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4E)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 21 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4F)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 22-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4A)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) 23 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4B)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate coverage material seriously vertically downward + Fully electrified house prime + Increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4C)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross-section (4C) + full electrified house prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4D)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4D) with a 26-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4E)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4E) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4F)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4F) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4A)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity-power-generating output sphere (2E), which is four times the specific material of the turbine blade cross section (4A), vertically downward by gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4B)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times specific material Gravity power generation output increase sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + storage battery driven various vehicles prime + increase sphere ascent device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4E)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4F)を9倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times specific critical material gravity power generation output increasing sphere (2E) with vacuum construction and method of vacuuming and accelerating vertically downward + turbine driving with specific critical material + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4A)を10倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) with a 10 times greater critical material gravity power generation output (2E) in a vacuum vertically with the turbine blade cross section (4A) + the increased sphere rising device (2F) driven by the turbine with a specific material Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4B)を11倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E), which is 11 times the specific critical material gravity power generation output, in the vacuum vertically down the turbine blade cross section (4B) + the sphere rising device (2F) driven by the turbine with the specific critical material Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4C)を12倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A configuration and method for sucking and accelerating the gravity blade power generation output sphere (2E) of 12 times the critical material gravity power generation vacuum (2E) vertically in the vacuum with the turbine blade cross section (4C) + a sphere rising device (2F) driven by the specific material Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4D)を13倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) with a 13-fold specific critical material gravity power generation output sphere (2E) vertically downward in a vacuum with a turbine blade with a specific critical material + a sphere increasing device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4E)を14倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A configuration and method for sucking and accelerating the gravity sphere (2E) with a 14-fold specific critical substance gravity power generation output sphere (2E) vertically under vacuum + a turbine drive with a specific critical substance + a rising sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を15倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A configuration and method for sucking and accelerating the gravity sphere (2E), which is 15 times the critical material gravity power generation output sphere (2E), in a vacuum vertically with a turbine blade cross section (4F) + a sphere rising device (2F) driven by a turbine with a specific material Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4A)を16倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E), which is 16 times the specific gravity substance gravity power generation output of the turbine blade cross section (4A), vertically in the vacuum + with the increase sphere raising device (2F) driven by the turbine with the specific gravity material Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を17倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity-power-generating output sphere (2E) with a specific gravity 17 times the turbine blade cross section (4B) vertically downward with a vacuum + a rising sphere raising device (2F) driven by a turbine with a specific gravity Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4C)を18倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the specific gravity material gravity power generation output increasing sphere (2E) 18 times the turbine blade cross section (4C) vertically downward with the vacuum + the increasing sphere raising device (2F) driven by the specific critical material turbine The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery-powered various ship primes + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4E)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times the specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4F)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) with a 21 times specific material gravity power generation turbine in multiple stages to accelerate the covered mercury vertically downwards + to make the storage battery driven various ships prime Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4A)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 22 times specific material gravity power generation turbines in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4B)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) with 23 times specific gravity material gravity power generation turbines in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4C)を24倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate platinum balls vertically downwards + storage battery-powered various ships primed + increase ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4D)を25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4D) of 25 times + acceleration of the various battery-powered vessels + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4E)を26倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the gold ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross-section (4E) of 26 times + accelerating the storage battery-driven various ships + intensifying ball lift device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4F)を2倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4F) + acceleration of the storage battery-driven vessels + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4A)を3倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the platinum alloy ball vertically downward by providing multiple stages of specific gravity material power generation turbines with three times the turbine blade cross section (4A) + accelerating the storage battery-driven various vessels + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4B)を4倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4B) + acceleration of the storage battery driven various vessels + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4C)を5倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the lead alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を6倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver alloy balls vertically downward by providing multiple stages of specific gravity material power generation turbines with 6 times the turbine blade cross section (4D) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4E)を7倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4E) + accelerating the storage battery-driven vessels + increasing sphere raising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4F)を8倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4F) of 8 times + accelerating the storage battery-driven various ships + increasing sphere raising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4A)を9倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated lead sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4A) + accelerating the storage battery-driven various ships + increasing sphere raising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4B)を10倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4B) + acceleration of the storage battery driven various vessels + increasing sphere raising device (2F ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various types of power generation with a single type of turbine in accelerated rolling contact with heavy substances Energy conservation cycle coalescence engine. タービン翼断面(4C)を11倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tungsten alloy spheres vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4C) + acceleration of the storage battery driven vessels + increase sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4D)を12倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4D) + acceleration of the storage battery-driven vessels + increasing sphere raising device (2F ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various types of power generation with a single type of turbine in accelerated rolling contact with heavy substances Energy conservation cycle coalescence engine. タービン翼断面(4E)を13倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tungsten steel balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with 13 times the turbine blade cross section (4E) + acceleration of the storage battery-driven vessels + increasing ball lifting device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4F)を14倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4F) + acceleration of the storage battery driven vessels ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4A)を15倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy ball vertically downward by providing multiple stages of specific-material gravity power generation turbines with 15 times the turbine blade cross section (4A) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4B)を16倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 16 times the turbine blade cross section (4B) + acceleration of battery-powered vessels + increasing sphere raising device (2F ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4C)を17倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating molybdenum steel balls vertically downward by installing 17-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4C) of 17 times. In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact Energy conservation cycle coalescence engine. タービン翼断面(4D)を18倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 18 times the turbine blade cross section (4D) + acceleration of the storage battery driven vessels ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4E)を19倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate molybdenum cast iron balls vertically downwards + storage battery-powered various ship primes + increasing ball lifting device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4F)を20倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4F) of 20 times, and increasing the sphere lifting device (2F) ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4A)を21倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 21 times specific material gravity power generation turbines in multiple stages to accelerate the silver sphere vertically downward + acceleration of storage battery driven various ships + increasing sphere ascending device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4B)を22倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver sphere vertically downward by providing 22 stages of specific gravity material gravity power generation turbines with 22 times the turbine blade cross section (4B) + accelerating the storage battery-powered various ships + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4C)を23倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 23 times specific material gravity power generation turbines are installed in multiple stages to accelerate the platinum sphere vertically downward + storage battery powered various ships prime + increase sphere lifting device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4D)を24倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated platinum sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 24 times the turbine blade cross section (4D) + acceleration sphere raising device (2F) Various energy storage cycle coalescence engines that use a small-diameter output increasing sphere (2E) together with the impact reduction means (2G) and use it as a power generation method that reduces friction by covering and mixing with a lubricating material. タービン翼断面(4E)を25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4E) of 25 times + accelerating various battery-powered vessels + increasing ball rising device (2F) Various energy storage cycle coalescing engines that use a small-diameter output increasing ball (2E) ascending and storing together with impact reducing means (2G) + a power generation method that reduces friction by coating or mixing a lubricating material. タービン翼断面(4F)を26倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 26 times the turbine blade cross-section (4F) + acceleration of the various battery-powered vessels + increasing ball lift device (2F) Various energy storage cycle coalescence engines that use a small-diameter output increasing sphere (2E) together with the impact reduction means (2G) and use it as a power generation method that reduces friction by covering and mixing with a lubricating material. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the platinum alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + accelerating the storage battery-driven various vessels + increasing ball rising device (2F) Various energy storage cycle coalescence engines that use a small-diameter output increasing sphere (2E) together with the impact reduction means (2G) and use it as a power generation method that reduces friction by covering and mixing with a lubricating material. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + increasing sphere raising device (2F) Various energy storage cycle coalescence engines that use a small-diameter output increasing sphere (2E) together with the impact reduction means (2G) and use it as a power generation method that reduces friction by covering and mixing with a lubricating material. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the lead alloy sphere vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased sphere raising device ( 2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricating material + Heavy substances are in the vacuum direction Various energy storage cycle coalescence engine that accelerates and generates electricity with one kind of turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver alloy balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by covering and mixing lubricant material + Vacuum heavier substances Various energy storage cycle coalescence engine that accelerates direction and generates electricity with one kind of turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with 6 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Various energy storage cycle coalescence engine that generates electricity with one kind of turbine as directional accelerated rolling contact. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased sphere raising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine that generates electricity with one kind of turbine as vacuum rolling contact. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated lead sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increasing ball lifting device (2F ) Increase head drop + Increase ball increase device (2F) Use small diameter output increase sphere (2E) ascending and storage with impact reduction means (2G) + Reduce friction by covering and mixing lubricant material + Impact reduction means for heavy substances Various energy storage cycle coalescence engine that accelerates with (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tungsten alloy sphere vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 10 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated in rolling contact in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tungsten steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + A heavy substance is accelerated together with the impact reducing means (2G) and accelerated. Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタンタル合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate electricity with a single turbine by accelerating heavy tantalum alloy balls in the vacuum direction. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被服タンタル合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engine that accelerates the vacuum of heavier material coated tantalum alloy balls in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate heavy molybdenum steel balls in a vacuum direction in rolling contact with a single turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Combined engine of various energy storage cycles that generates power with a single turbine using a molybdenum steel ball coated with a heavier substance as an accelerated rolling contact in the vacuum direction. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋳鉄球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy material molybdenum cast iron ball together with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reduce friction by coating and mixing with lubricious material + heavy material coated molybdenum cast iron sphere in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F), small-diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by coating and mixing of lubricious material + one kind of turbine by accelerating heavier material silver sphere in vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with lubricious material + one type of heavy material coated silver sphere as an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to save and use + reducing friction by covering and mixing with a lubricious material + a kind of platinum ball of heavier substance as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction reduction by coating or mixing with a lubricious material + Heavy substance coated platinum spheres are accelerated together with the impact reducing means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + various kinds of power generation by one kind of turbine by accelerating heavy metal balls in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter power increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavier material coated gold sphere in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 26 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavy material platinum alloy sphere as a vacuum-accelerated rolling contact and generates electricity with one type of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + heavier material gold alloy sphere as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の鉛合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) Small diameter output increase sphere (2E) is used for ascending storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + lead alloy ball of heavy substance is accelerated with impact reduction means (2G) and one kind Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating the heavy material silver alloy sphere in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + heavier material coated platinum alloy sphere is accelerated in the vacuum direction to make one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + heavy type coated gold alloy ball as a vacuum accelerated rolling contact and one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆鉛球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to save and use + Coating and mixing with a lubricious material to reduce friction + Heavier material-coated lead spheres are used in a single turbine as an accelerated rolling contact in a vacuum direction Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricating material + accelerating the heavy material coated silver alloy sphere together with the impact reducing means (2G) Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small-diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + one kind of turbine by accelerating heavy material tungsten alloy sphere in vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆タングステン合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + One kind by accelerating tungsten alloy ball of heavier substance in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material power generation turbines with 11 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + heavy material tungsten steel ball as one type of accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆タングステン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating or mixing with lubricious material. + Tungsten steel balls coated with heavier substances are used as accelerated rolling contact in the vacuum direction. Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタンタル合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + tantalum alloy balls of heavy substances are accelerated with impact reducing means (2G) Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タンタル合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Heavy energy coated tantalum alloy balls accelerating in the vacuum direction and generating various types of energy storage cycle engines with a single turbine. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that accelerate the power of molybdenum steel balls, which are heavier, in the vacuum direction and generate electricity with one turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate power with one kind of turbine by using heavy steel coated molybdenum steel balls in the vacuum direction as rolling contact. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that use a single type of turbine to generate a heavier molybdenum cast iron ball in the vacuum direction in rolling contact. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing lubricant materials + Heavy energy-coated molybdenum cast iron balls are accelerated together with impact reduction means (2G) to generate various types of energy storage cycle engines. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing of lubrication material + heavy material silver sphere is accelerated in vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F), a small-diameter output increasing sphere (2E) is lifted and stored together with impact reduction means (2G) + friction reduction by coating or mixing with a lubricious material + one kind of silver sphere accelerated by a heavier substance is accelerated in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + heavy type platinum ball is used as one type of turbine with accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + One type of platinum ball with a heavier material coated as an accelerated rolling contact Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( In 2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating or mixing with a lubricious material. + A heavy metal ball is accelerated together with the impact reducing means (2G). Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) Use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduce friction by coating or mixing with lubricious material + accelerating the heavy material coated gold sphere in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small diameter power increase sphere (2E) ascending and storing together with impact reduction means (2G) + Reducing friction by coating and mixing with lubricious materials + Accelerating platinum alloy balls of heavier substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 26 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + generating power with a single type of turbine as a heavy material gold alloy sphere in a vacuum accelerated rolling contact Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の鉛合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + lead alloy ball of heavier material as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small diameter output sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + one type of acceleration of heavy material silver alloy balls together with the impact reduction means (2G) Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + heavy material coating The platinum alloy ball is accelerated in the vacuum direction by one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one kind of turbine by accelerating the heavier material coated gold alloy sphere in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆鉛球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) together with impact reduction means (2G) for storage, reducing friction by coating and mixing with a lubricious material + Heavier material coated lead sphere as a vacuum accelerated rolling contact for power generation with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In this case, the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavier material coated silver alloy sphere is used as an accelerated rolling contact in the vacuum direction. Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavy tungsten alloy balls are accelerated together with the impact reducing means (2G) Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tungsten steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + Shifting from theoretical best engine to best engine result + Increase ball lift device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating a coated tungsten steel ball vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated in rolling contact in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increase sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + A heavy substance is accelerated together with the impact reducing means (2G) and accelerated. Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescing engines that generate heavy steel molybdenum steel balls in the vacuum direction and generate electricity with one kind of turbine. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate power with a single turbine by accelerating molybdenum steel balls coated with heavier substances in the vacuum direction. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate heavy molybdenum cast iron balls in a vacuum direction in rolling contact with a single turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that use molybdenum cast iron balls coated with heavier substances as a rolling accelerated contact in a vacuum direction with a single turbine. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricious material + Various energy storage cycle coalescence engine that accelerates heavy substance silver sphere with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by coating and mixing of lubricant material + heavy material coated silver sphere is accelerated in the vacuum direction to make one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with a lubricious material + Accelerates heavier platinum spheres in the vacuum direction to create one type of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating or mixing with a lubricious material. Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F), small diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + one kind of heavier material gold ball as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G). + Friction is reduced by coating or mixing with a lubricious material. + The heavy metal coated gold sphere is accelerated together with the impact reduction means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction is reduced by coating and mixing with a lubricious material + heavy platinum alloy balls are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses small diameter power increase sphere (2E) ascending and storage with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + Accelerates heavier gold alloy balls in the vacuum direction to generate electricity with one turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の鉛合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 26 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + generating electricity with one kind of turbine by using a heavy alloy lead alloy ball as an accelerating rolling contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter power increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + a heavier silver alloy ball as a rolling acceleration contact in a vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + heavy material coated platinum alloy balls are accelerated together with the impact reducing means (2G) 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) Using a small-diameter output increasing ball (2E) together with impact reduction means (2G) to save and use + reducing friction by coating and mixing with lubricious material + acceleration of heavy material-coated gold alloy ball in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆鉛球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavier material coated lead spheres are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + heavy type coated silver alloy sphere as a vacuum accelerated rolling contact for one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のタングステン合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one kind of turbine using a tungsten alloy ball of a heavier substance as an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タングステン合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction reduction by coating and mixing with a lubricious material + Heavy substance coated tungsten alloy balls are accelerated together with the impact reducing means (2G). Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device In (2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction is reduced by coating and mixing with a lubricious material + heavier substances are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross-section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavier substances in one direction turbine as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the molybdenum steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Coarse engine of various energy storage cycles to generate power with one type of turbine by accelerating a heavy steel coated molybdenum steel ball in the vacuum direction. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescence engine that accelerates the heavier molybdenum cast iron ball in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing of lubricating materials + Heavy energy-coated molybdenum cast iron balls are used in various types of energy storage cycles that generate electricity in a single turbine using accelerated rolling contact in the vacuum direction. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescence engines that generate power with one kind of turbine in a vacuum accelerated rolling contact with a heavier material silver sphere. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy material coated silver sphere with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter power increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + Friction is reduced by coating and mixing of lubricating material + Platform ball of heavy substance is accelerated in vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + heavy type gold ball is used for accelerated rolling contact in vacuum direction and one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + One type of heavier material coated gold sphere as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + A heavy platinum alloy ball is accelerated together with the impact reducing means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) Use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + accelerating the heavy alloy gold alloy sphere in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の鉛合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses small diameter power increase sphere (2E) ascending and storage with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + Accelerates heavier lead alloy balls in the vacuum direction to generate electricity with one turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 26 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + generating power with one kind of turbine by using a heavy alloy silver alloy ball as an accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) Small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by coating or mixing with lubricious material + heavier material coated platinum alloy sphere as vacuum accelerated rolling contact for one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G). + Friction reduction by coating or mixing with a lubricious material. + A heavy alloy coated gold alloy sphere is accelerated together with the impact reducing means (2G). Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆鉛球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) Using a small-diameter output increasing sphere (2E) together with an impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious materials + acceleration of heavy substance-coated lead spheres in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one kind of turbine by accelerating the heavier material coated silver alloy sphere in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavy material tungsten alloy sphere as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆タングステン合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + heavier material coated tungsten alloy sphere as a vacuum accelerated rolling contact Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン鋼球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + a heavy substance tungsten steel ball is accelerated together with the impact reducing means (2G) to 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy sphere vertically downward by providing a multistage turbine blade cross section (4X) with 10 times specific material gravity power generation turbine + Shifting from the theoretical best engine to the best engine result + Increased sphere raising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated in rolling contact in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the molybdenum steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + A heavy substance is accelerated together with the impact reducing means (2G) and accelerated. Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate power with a single turbine by accelerating a heavy molybdenum cast iron ball in the vacuum direction. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Coarse engine of various energy storage cycles that generates power with a single turbine by accelerating a heavier material coated molybdenum cast iron ball in the vacuum direction. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubrication material + Various energy storage cycle coalescence engine that generates heavy material silver sphere in vacuum direction accelerated rolling contact with one kind of turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate power with a single turbine using a silver sphere coated with heavier material as an accelerated rolling contact in the vacuum direction. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubrication material + Various energy storage cycle coalescence engine that accelerates heavy platinum ball together with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + heavy material coated platinum sphere is accelerated in the vacuum direction to make one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + Friction is reduced by coating and mixing of lubricating material + A heavier material gold ball is accelerated in the vacuum direction to make one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy coated gold sphere as one of the types of accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) use small diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reduce friction by covering and mixing with lubricious material + one kind of platinum alloy ball of heavier substance as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + The heavy alloy gold alloy sphere is accelerated together with the impact reducing means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の鉛合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) Use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduce friction by coating and mixing with lubricious materials + accelerating heavy lead alloy balls in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Uses small diameter power increase sphere (2E) ascending and storage with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + Accelerates heavier silver alloy balls in the vacuum direction to generate electricity with one turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 26 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + covering a heavy material with a platinum alloy ball as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending storage together with an impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavier material coated gold alloy sphere as a vacuum accelerated rolling contact and one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆鉛球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + heavy substance coated lead sphere is accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavy material coated silver alloy sphere is accelerated in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のタングステン合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + accelerating the tungsten alloy sphere of heavier substance in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タングステン合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + heavy material-coated tungsten alloy balls are used as one type of turbine with accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のタングステン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + one kind of turbine with a heavier substance tungsten steel ball as an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タングステン鋼球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + accelerating the heavy substance coated tungsten steel ball together with the impact reducing means (2G) Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of turbine blade cross section (4X) with 10 times the specific material gravity power generation turbine + Shifting from the theoretical best engine to the best engine result + Increase sphere raising device In (2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction is reduced by coating and mixing with a lubricious material + heavier substances are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating molybdenum steel balls vertically downward by installing 11 stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4X) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavier substances in one direction turbine as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Incremental ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubricious materials + Heavy energy coating Molybdenum cast iron balls accelerate in the vacuum direction to generate various energy storage cycle coalescing engines. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Coating and mixing of lubricious materials reduces friction + Various energy storage cycle coalescing engines that generate power with a single turbine by accelerating the heavier silver spheres in the vacuum direction. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubrication material + Various energy storage cycle coalescence engine that generates power with one kind of turbine by using heavy material coated silver sphere as vacuum rolling contact. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubrication material + Various energy storage cycle coalescence engine that generates electricity with one kind of turbine by using platinum ball of heavier substance in the vacuum direction as rolling contact. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubrication material + Heavy energy coated platinum spheres are accelerated together with impact reduction means (2G) and combined with various energy storage cycle engines that generate electricity with one type of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increase sphere (2E) is lifted and stored together with the impact reduction means (2G). + Friction is reduced by coating and mixing with a lubricious material. + A heavy ball of gold is accelerated in the vacuum direction with one type of turbine. Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F), the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one type of heavier material coated gold sphere is accelerated in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + heavy material platinum alloy sphere as vacuum rolling contact for acceleration Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + One kind of heavier gold alloy ball as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の鉛合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( In 2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + Lead alloy balls of heavy substances are accelerated together with the impact reducing means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) The small-diameter power increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + accelerating the heavy material silver alloy sphere in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) The small-diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + heavier material coated platinum alloy sphere is accelerated in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 26 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter power increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + heavy material coated gold alloy sphere as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆鉛球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + generating electricity with one type of turbine as a lead ball with a heavier material coated as a vacuum accelerated rolling contact Various energy conservation cycle coalescing engines. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質被覆銀合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small diameter output increase sphere (2E) is used for ascending storage with impact reduction means (2G) + friction reduction by coating and mixing of lubricious material + heavy material coated silver alloy sphere is accelerated with impact reduction means (2G) and one kind Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + accelerating the heavy tungsten alloy sphere in the vacuum direction and generating electricity with one type of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆タングステン合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with lubricious material + heavier material coated tungsten alloy sphere is accelerated in the vacuum direction to make one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) Using a small-diameter output increasing ball (2E) together with impact reduction means (2G) to save and use + Coating and mixing lubricant material to reduce friction + Heavy substance tungsten steel ball as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆タングステン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) together with impact reduction means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + heavier material coated tungsten steel ball as one type of vacuum accelerated rolling contact Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタンタル合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + tantalum alloy balls of heavy substances are accelerated together with the impact reducing means (2G) to 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タンタル合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + friction reduction by coating and mixing of lubrication material + heavy substance coating Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + one kind of molybdenum steel ball of a heavier substance is accelerated in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material power generation turbines with 11 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + Heavy type coated molybdenum steel ball as one type of vacuum accelerated rolling contact Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by covering and mixing with lubricious material + One type of heavier molybdenum cast iron ball as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + heavy material coated molybdenum cast iron balls are accelerated with the impact reduction means (2G) Various energy storage cycle coalescence engines that generate electricity with one type of turbine. タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate power in one type of turbine by accelerating heavy material silver balls in the vacuum direction. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubricating materials + Various energy storage cycle coalescing engines that generate power with a single turbine by accelerating the heavier material coated silver sphere in the vacuum direction. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubrication material + Various energy storage cycle coalescence engine that generates heavy material platinum ball in vacuum direction accelerated rolling contact and generating electricity with one kind of turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing with lubricious materials + Coarse engine of various energy storage cycles that uses a single turbine to generate electricity in a vacuum accelerated rolling contact with a heavier material coated platinum ball. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating material + Various energy storage cycle coalescence engine that accelerates heavy material gold ball together with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + heavy material coated gold sphere is accelerated in the vacuum direction and one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + heavy alloy gold alloy sphere as vacuum rolling contact in one direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の鉛合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + One type of heavier lead alloy ball as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( In 2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + A heavy alloy silver alloy sphere is accelerated together with the impact reducing means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavy material coating A platinum alloy ball is accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with lubricious material + heavier material coated gold alloy balls are accelerated in the vacuum direction by one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆鉛球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 26 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + generating heavy-body-coated lead spheres in a single turbine with accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending storage together with impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + heavier material coated silver alloy sphere as a vacuum accelerated rolling contact for one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small diameter output sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + one type of heavy substance tungsten alloy sphere accelerated with the impact reduction means (2G) Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タングステン合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) The small-diameter power increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + heavy material coating Tungsten alloy sphere is accelerated in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のタングステン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + accelerating the heavier substance tungsten steel ball in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タングステン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and used together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavy type coated tungsten steel ball as one kind of turbine with accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のタンタル合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one kind of turbine with a tantalum alloy ball of a heavier substance as a vacuum accelerated rolling contact Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タンタル合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G). + Friction reduction by coating or mixing with a lubricating material + Heavy substance coated tantalum alloy balls are accelerated together with the impact reducing means (2G). Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the molybdenum steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device In (2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction is reduced by coating and mixing with a lubricious material + heavier substances are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the molybdenum cast iron sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum cast iron ball vertically downward by providing multiple stages of 12-times specific gravity material gravity power generation turbines with a turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavier substances in one direction turbine as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental sphere raising device (2F ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Heavy energy coated silver spheres accelerate in the vacuum direction to generate various energy storage cycle coalescing engines. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates a heavier material platinum ball in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricious materials + Coated engine with various energy storage cycles that generates heavy material coated platinum spheres in an accelerating rolling contact in a vacuum direction with a single turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate gold balls of heavier material in a vacuum direction in rolling contact with a single turbine. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricious material + Various energy storage cycle coalescence engine that accelerates heavy material coated gold ball together with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + one kind of turbine by accelerating heavy platinum alloy ball in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + one kind of gold alloy ball of heavier material is accelerated in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の鉛合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F), small diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by covering and mixing with lubrication material + heavy material lead alloy ball is used as accelerated rolling contact in vacuum direction, one kind Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by covering and mixing lubricant material + One type of heavier silver alloy ball as accelerated rolling contact in vacuum direction Various energy storage cycle coalescing engines that generate electricity with turbines. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) The small diameter output sphere (2E) is used for ascending storage with impact reduction means (2G) + Friction is reduced by coating or mixing with lubricious material + Heavy material coated platinum alloy balls are accelerated with impact reduction means (2G) Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) Using a small-diameter power increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating the heavy alloy coated gold alloy sphere in the vacuum direction and generating electricity with one turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆鉛球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Use the small-diameter power increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduce friction by coating and mixing with lubricious material + accelerating the heavier material coated lead sphere in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 26 times specific gravity material gravity power generation turbines installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) Using a small-diameter power increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + heavy material coated silver alloy sphere as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のタングステン合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + a heavy alloy tungsten alloy ball as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タングステン合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavy substance coated tungsten alloy sphere is accelerated with the impact reducing means (2G) to 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + accelerating the heavy substance tungsten steel ball in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆タングステン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + one kind of turbine by accelerating the heavier material coated tungsten steel ball in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタンタル合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavy tantalum alloy spheres in an accelerating rolling contact in a vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆タンタル合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) Using a small-diameter output increasing ball (2E) together with impact reduction means (2G) to save and save + friction reduction by coating or mixing with lubricious material + heavier material coated tantalum alloy ball as one of the types of accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋼球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricating material + accelerating a heavy steel molybdenum steel ball together with the impact reducing means (2G) Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を9倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times specific gravity material gravity power generation output increasing sphere (2E) with vacuum construction and method of sucking and accelerating vertically downwards + turbine driving with specific material + increase sphere rising device (2F) Using a small-diameter power increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + accelerating the heavy steel coated molybdenum steel ball in the vacuum direction and generating electricity with one turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を10倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) with a 10 times larger critical gravity material power generation output sphere (2E) vertically under vacuum + turbine driving with a specific gravity material + a rising sphere lift (2F) Uses small diameter power increase sphere (2E) ascending and storage with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious materials + Accelerates heavier molybdenum cast iron balls in the vacuum direction to generate electricity with one turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を11倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for sucking and accelerating the gravity-power-generating output sphere (2E) with 11 times the specific critical material gravity power generation vacuum vertically in the turbine blade cross-section (4X) + with the increase sphere rising device (2F) driven by the turbine with the specific critical material Using a small-diameter power increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + heavy material coated molybdenum cast iron spheres in one direction as a vacuum accelerated rolling contact Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を12倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific critical material gravity power generation output increasing sphere (2E) with a structure and method of sucking and accelerating vertically downward with vacuum + specific spherical material turbine driving + increasing sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + generating power with one kind of turbine using a heavier silver ball as an accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を13倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of sucking and accelerating the gravity-power generation output increase sphere (2E) 13 times the specific critical substance gravity power in the vacuum vertically with the turbine blade cross-section (4X) + with the increase sphere raising device (2F) driven by the specific critical substance turbine The small diameter output sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by coating or mixing with a lubricious material + one type of acceleration of heavy material coated silver sphere with the impact reduction means (2G) Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を14倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A configuration and method for sucking and accelerating the gravity sphere (2E) with a 14-fold specific critical substance gravity power generation output sphere (2E) vertically downward in a vacuum with a turbine blade driven with a specific critical substance + a rising sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + various types of power generation using a single turbine by accelerating heavy platinum balls in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4X)を15倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被服白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) with a specific critical material gravity power generation output (2E) 15 times lower than the turbine blade cross-section (4X) + the sphere rising device (2F) driven by the turbine with the specific critical material + The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + Heavier material coated platinum spheres are accelerated in the vacuum direction to generate electricity with one turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を16倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific gravity material gravity power generation output increasing sphere (2E) with vacuum construction and method of sucking and accelerating vertically downward + specific gravity material turbine drive + increase ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + generates heavy material gold spheres in an accelerating rolling contact in a vacuum direction to generate electricity with one type of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を17倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被服金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific gravity material gravity power generation output increasing sphere (2E) with vacuum construction and method of sucking and accelerating vertically down + turbine driving with specific material + increase ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavier material coated ball as a vacuum accelerated rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を18倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the specific gravity material gravity power generation output increase sphere (2E) 18 times the turbine blade cross section (4X) vertically downward with the vacuum + the increase sphere rising device (2F) driven by the specific critical material turbine Small diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + heavy material platinum alloy balls are accelerated with impact reducing means (2G) and one kind Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 19 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the lead alloy balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) 20 times larger + Increased ball lift device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver alloy balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with 21 times the turbine blade cross section (4X) + acceleration of battery-powered vessels + increasing ball lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with 22 times the turbine blade cross section (4X) + accelerating the storage battery-driven vessels + increasing sphere raising device (2F ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating the coated gold alloy sphere vertically downward by providing 23 stages of specific gravity material power generation turbines with 23 times the turbine blade cross section (4X) ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24 times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate the covered lead sphere vertically downward + Storage battery driven various ships prime + Increment sphere lifting device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver alloy sphere vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross-section (4X) of 25 times + acceleration of the storage battery-driven vessels + increasing sphere raising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + Various energy generated by a single turbine by accelerating heavy substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tungsten alloy balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 26 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + increasing ball lifting device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + Various energy generated by a single turbine by accelerating heavy substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with four times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + increasing ball lifting device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross-section (4X) + accelerating various battery-powered vessels + increasing sphere raising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 8 times + accelerating the storage battery-driven vessels + increasing ball lifting device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating molybdenum cast iron balls vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 9 times + accelerating the storage battery drive + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating a coated molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross-section (4X) of 10 times + accelerating the storage battery-driven various ships + increasing ball lifting device (2F ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various types of power generation with a single type of turbine in accelerated rolling contact with heavy substances Energy conservation cycle coalescence engine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the silver sphere vertically downward by providing 11 stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross-section (4X) + accelerating the storage battery-driven various ships + increasing sphere raising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4X) + accumulating sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the platinum ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + accelerating the storage battery drive + Intensifying ball lift device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4X) + accumulating sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold ball vertically downward by providing multiple stages of specific gravity material power generation turbines with 15 times the turbine blade cross section (4X) + accelerating the storage battery-driven various ships + Intensifying sphere raising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 16 times the turbine blade cross section (4X) + acceleration of the various battery-powered vessels + increasing ball lifting device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating platinum alloy balls vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 17 times the turbine blade cross section (4X) + acceleration of storage battery-powered various ships + increasing ball lifting device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 18 times the turbine blade cross section (4X) + acceleration of the storage battery drive various vessels + increase ball lift device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact Energy conservation cycle coalescence engine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the lead alloy ball vertically downward + storage battery driven various ships prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver alloy balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 20 times + acceleration of various battery-powered vessels + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with 21 times the turbine blade cross section (4X) + acceleration sphere lifting device (2F) ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 22 times the turbine blade cross section (4X) + accelerating the storage battery drive various vessels + increasing sphere raising device (2F ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated lead sphere vertically downward by providing multiple stages of specific gravity material power generation turbines with 23 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 24 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + increasing sphere raising device (2F ), A small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tungsten alloy ball vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 25 times + accelerating the storage battery-driven various vessels + increasing ball rising device (2F) Various energy storage cycle coalescence engines that use a small-diameter output increasing sphere (2E) together with the impact reduction means (2G) and use it as a power generation method that reduces friction by covering and mixing with a lubricating material. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross-section (4X) of 26 times + accelerating various battery-powered vessels + increasing sphere raising device (2F ), A small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tungsten steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) Various energy storage cycle coalescence engines that use a small-diameter output increasing sphere (2E) together with the impact reduction means (2G) and use it as a power generation method that reduces friction by covering and mixing with a lubricating material. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減する発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F ), A small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increase sphere raising device ( 2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricating material + Heavy substances are in the vacuum direction Various energy storage cycle coalescence engine that accelerates and generates electricity with one kind of turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine that accelerates in the vacuum direction and generates electricity with one type of turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating molybdenum steel balls vertically downwards by installing multiple stages of gravity-critical turbines with 6 times the specific material mass turbine turbine cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricating material + Heavy substances are in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with one kind of turbine as accelerated rolling contact. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine that generates electricity with one kind of turbine as vacuum rolling contact. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Drop increase + Increase ball increase device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Reduce impact of heavy substances Various energy storage cycle coalescence engine that accelerates with means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated molybdenum cast iron sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the silver sphere vertically downward + Shift from theoretical best engine to experimental result best engine + Increment sphere lifting device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 11 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Intensifying sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates heavy materials with a single type of turbine as accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the platinum ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4X) + theoretical best engine to experimental result best engine + increasing ball lifting device (2F ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Intensifying sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates heavy metal gold balls in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被服金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing of lubricious materials + Various energy storage cycle coalescing engines that accelerates the heavier material clothing balls in the vacuum direction and generates electricity with a single turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubrication material + Various energy storage cycle coalescence engine that generates heavy material platinum alloy ball in vacuum direction accelerated rolling contact with one kind of turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate heavy alloy gold alloy balls in a vacuum direction in rolling contact with a single turbine. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の鉛合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by covering and mixing with lubricious material + Various energy storage cycle coalescence engine that accelerates heavy material lead alloy balls together with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the silver alloy sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricating material + Various types of power generation using a single turbine by accelerating heavy substances in the vacuum direction Energy conservation cycle coalescence engine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 20 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device In (2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction is reduced by coating and mixing with a lubricious material + heavier substances are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated gold alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 21 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing ball lifting device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated in rolling contact in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated lead sphere vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 22 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Incremental sphere raising device (2F ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 23 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + A heavy substance is accelerated together with the impact reducing means (2G) and accelerated. Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate tungsten alloy balls vertically downward + full electrified house prime + small sphere riser (2F) small diameter Uses the power increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by covering and mixing lubricant materials + Combines various energy storage cycles to accelerate heavy substances in the vacuum direction and generate electricity with one turbine organ. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with 25 times the turbine blade cross section (4X) + Fully electrified house prime + Increase sphere rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating or mixing with a lubricious material + accelerating heavier substances in the vacuum direction and generating energy with one type of turbine Cycle coalescence engine. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) with 26 times specific material gravity power generation turbines in multiple stages to accelerate tungsten steel balls vertically downwards + full electrification house prime + increase ball lift device (2F) small diameter The energy increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy storage cycles in which heavy substances are generated in a single turbine using accelerated rolling contact in a vacuum direction Combined organization. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full electrified housing prime + increasing ball rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tantalum alloy balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full-scale electrified housing priming + small sphere rising device (2F) The output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タンタル合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + heavy material coated tantalum alloy sphere is accelerated in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + accelerating the heavier molybdenum steel ball in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋼球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + heavy-type coated molybdenum steel ball as one type of turbine with accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + one kind of turbine using a molybdenum cast iron ball of a heavier substance as a vacuum accelerated rolling contact Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G). + Friction reduction by coating or mixing with a lubricious material + Heavy substance coated molybdenum cast iron balls are accelerated together with the impact reducing means (2G). Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Incremental sphere raising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + Various energy generated by a single turbine by accelerating heavy substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver sphere vertically downward by providing a multistage turbine blade cross section (4X) with 10 times the specific material gravity power generation turbine + Shifting from the theoretical best engine to the best engine result + Increase sphere raising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + reduce friction by coating and mixing with lubricious material + accelerate heavier substances in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the platinum sphere vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result of experiment + Increased sphere raising device (2F ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various types of power generation with a single type of turbine in accelerated rolling contact with heavy substances Energy conservation cycle coalescence engine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated platinum sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Intensifying sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Generates a heavier substance in a single turbine as an accelerated rolling contact in a vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result of experiment + Incremental ball lifting device (2F ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubricious materials + Various energy storage cycle coalescing engines that generate power with a single turbine by accelerating a heavy material coated gold ball in the vacuum direction. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that generate power with a single turbine by accelerating the heavier platinum alloy balls in the vacuum direction. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engines that generate heavy alloy gold alloy balls in a vacuum-accelerated rolling contact and generate electricity with one type of turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の鉛合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing of lubricating materials + Various energy storage cycle coalescing engines that generate heavier substances of lead alloy balls with vacuum-type accelerated rolling contact with a single turbine. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation use + Friction reduction by coating and mixing of lubrication material + Various energy storage cycle coalescence engine that accelerates heavy material silver alloy balls together with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coated platinum alloy ball vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold alloy sphere vertically downward by providing multiple stages of specific gravity material power generation turbines with 20 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase sphere raising device In (2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction is reduced by coating and mixing with a lubricious material + heavier substances are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated lead sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 21 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increasing sphere lifting device (2F ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various types of power generation with a single type of turbine in accelerated rolling contact with heavy substances Energy conservation cycle coalescence engine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver alloy sphere vertically downward by providing multiple stages of specific gravity material gravity turbines with 22 times the turbine blade cross section (4X) + shifting from the theoretical best engine to the best engine result + increasing sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavier substances in one direction turbine as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tungsten alloy balls vertically downward by providing 23 stages of turbine blade cross section (4X) in multiple stages with specific gravity material gravity power generation turbines + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 24 times the turbine blade cross-section (4X) + full electrified house prime + increasing sphere rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavy substances are accelerated in the vacuum direction and generated by a single turbine Combined organization. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 25 times larger specific gravity gravity power generation turbines are installed in multiple stages to accelerate the tungsten steel ball vertically downward + full electrified house prime + small sphere riser (2F) small diameter The output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage cycles in which heavier substances are accelerated in the vacuum direction to generate electricity with one type of turbine Combined organization. タービン翼断面(4X)を26倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated tungsten steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 26 times the turbine blade cross-section (4X) + full electrified house prime + increasing ball rising device (2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by coating and mixing with a lubricious material + various energy storage that generates heavy substances in a single turbine with accelerated rolling contact in a vacuum direction Cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating tantalum alloy balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing of lubrication material + one kind of turbine by accelerating heavy molybdenum steel ball in vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses small-diameter output increasing sphere (2E) together with impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with lubricious material + One type by accelerating the heavier material coated molybdenum steel ball in the vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + heavy type molybdenum cast iron ball as one of the types of accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and used together with the impact reducing means (2G). + Friction is reduced by coating or mixing with a lubricious material. + A heavier material coated molybdenum cast iron ball is used as an accelerated rolling contact in the vacuum direction. Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating or mixing with a lubricious material. + The heavy material silver sphere is accelerated with the impact reducing means (2G). Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated silver sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with lubricious materials + Accelerates heavy substances in the vacuum direction and generates electricity with one type of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the platinum sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction is reduced by coating and mixing with a lubricious material + heavier substances are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated platinum sphere vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + friction reduction by coating and mixing with a lubricious material + heavy material in a vacuum direction rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavier substances in one direction turbine as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated gold sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + acceleration of heavy substances with the impact reducing means (2G) and 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined use with ascending storage + Reduced friction by coating and mixing with lubricious materials + Various energy storage cycle coalescing engines that accelerate heavy metal platinum alloy balls in the vacuum direction and generate electricity with one turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricating materials + Various energy storage cycle coalescence engine that accelerates the gold alloy balls of heavier substances in the vacuum direction and generates electricity with one turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の鉛合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricating materials + Combined engine of various energy storage cycles to generate electricity with one type of turbine in the accelerated rolling contact of heavy lead alloy balls. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricating materials + Various energy storage cycle coalescing engines that generate heavy alloy silver alloy balls in a vacuum direction in rolling contact with a single turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + Coated engine with various energy storage cycles to accelerate heavy alloy coated platinum alloy balls with impact reducing means (2G) and generate electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best experimental result + increasing sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated lead sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction is reduced by coating and mixing with a lubricious material + heavier substances are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated silver alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using a rising device (2F) with a small-diameter output increasing ball (2E) together with an impact reducing means (2G) to save and use + reducing friction by coating or mixing with a lubricious material + a kind of turbine with a heavy substance as an accelerated rolling contact in a vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + Increase sphere rise A small-diameter output increasing sphere (2E) is lifted and stored together with an impact reducing means (2G) in the apparatus (2F) + friction reduction by coating and mixing of a lubricious material + one kind of turbine as a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing the lubricating material + accelerating heavy substances with the impact reducing means (2G) Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tungsten steel balls vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating tantalum alloy balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating molybdenum steel balls vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Fully electrified house prime + Increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋼球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricious material + heavy material coated molybdenum steel sphere is accelerated in the vacuum direction to make one kind Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + one type of molybdenum cast iron ball of a heavier substance is accelerated in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing of lubricious material + Heavy material coated Molybdenum cast iron ball as one type of accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + a heavier material silver sphere as a vacuum-accelerated rolling contact Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( In 2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating or mixing with a lubricious material. + The heavy material coated silver sphere is accelerated together with the impact reducing means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the platinum sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated platinum sphere vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise Use the device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + reduce friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated in rolling contact in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated gold sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise A small-diameter output increasing sphere (2E) is lifted and stored together with an impact reducing means (2G) in the apparatus (2F) + friction reduction by coating and mixing of a lubricious material + one kind of turbine as a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate platinum alloy balls vertically downward + Shift from theoretical best engine to best engine results + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + acceleration of heavy substances with the impact reducing means (2G) and 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing with lubricious materials + Various energy storage cycle coalescence engine that accelerates heavy alloy gold alloy balls in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の鉛合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) It is used for ascending storage + friction reduction by coating and mixing of lubricating material + various energy storage cycle coalescence engine that accelerates the heavier substance lead alloy ball in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricating materials + Various energy storage cycle coalescing engines that generate heavy material silver alloy balls in a vacuum direction in rolling contact with a single turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricating materials + Coated engine with various energy storage cycles that generates platinum alloy balls coated with heavier substances in a vacuum with accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + Combined engine of various energy storage cycles to accelerate heavy alloy coated gold alloy balls together with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated lead sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated silver alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + one kind of turbine by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + friction reduction by coating and mixing with a lubricious material + heavy material in a vacuum direction rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one type of heavier substance as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + acceleration of heavy substances with the impact reducing means (2G) and 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + Various energy generated by a single turbine by accelerating heavy substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating tantalum alloy balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various types of power generation with a single type of turbine in accelerated rolling contact with heavy substances Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating molybdenum steel balls vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Fully electrified house prime + Increasing ball rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small diameter output increasing sphere (2E) is used ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing of lubrication material + one kind of turbine by accelerating heavy material molybdenum cast iron ball in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + Heavier material coated molybdenum cast iron ball accelerated in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small diameter output increasing sphere (2E) is lifted and stored together with impact reduction means (2G) + friction reduction by coating and mixing of lubrication material + heavy type silver sphere as vacuum rolling contact for acceleration and one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output sphere (2E) is lifted and stored together with impact reduction means (2G) + Reduced friction by coating or mixing with lubricious material + One type of heavier material coated silver sphere as vacuum rolling contact Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( In 2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating or mixing with a lubricious material. + A heavy platinum ball is accelerated with the impact reducing means (2G). Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated platinum sphere vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with lubricious materials + Accelerates heavy substances in the vacuum direction and generates electricity with one type of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction is reduced by coating and mixing with a lubricious material + heavier substances are accelerated in the vacuum direction to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated gold sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + friction reduction by coating and mixing with a lubricious material + heavy material in a vacuum direction rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate platinum alloy balls vertically downward + Shift from theoretical best engine to best engine results + Increase ball rise A small-diameter output increasing sphere (2E) is lifted and stored together with an impact reducing means (2G) in the apparatus (2F) + friction reduction by coating and mixing of a lubricious material + one kind of turbine as a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold alloy ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + acceleration of heavy substances with the impact reducing means (2G) and 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の鉛合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricious materials + Various energy storage cycle coalescence engine that accelerates the heavy alloy lead alloy ball in the vacuum direction and generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) It is also used for ascending storage + friction reduction by coating and mixing of lubricating materials + various energy storage cycle coalescence engine that accelerates vacuum of heavier silver alloy balls in the vacuum direction and generates electricity with one turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing with lubricious materials + Coated heavy alloy material Various energy storage cycle coalescence engine that generates power with one kind of turbine as a rolling accelerated contact in a platinum alloy ball. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Friction reduction by coating and mixing of lubricating materials + Coarse engine of various energy storage cycles to generate power with one kind of turbine in the accelerated rolling contact with a heavier material coated gold alloy ball. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆鉛球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + Combined engine with various energy storage cycles to accelerate heavy ball coated lead spheres with impact reducing means (2G) and generate electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated silver alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + Increase sphere rise Use the device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + reduce friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using a rising device (2F) with a small-diameter output increasing ball (2E) together with an impact reducing means (2G) to save and use + reducing friction by coating or mixing with a lubricious material + a kind of turbine with a heavy substance as an accelerated rolling contact in a vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise A small-diameter output increasing sphere (2E) is lifted and stored together with an impact reducing means (2G) in the apparatus (2F) + friction reduction by coating and mixing of a lubricious material + one kind of turbine as a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing the lubricating material + accelerating heavy substances with the impact reducing means (2G) Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating tantalum alloy balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating molybdenum steel balls vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Fully electrified house prime + Increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating molybdenum cast iron balls vertically downwards by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), use a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reduce friction by coating and mixing with lubricious material + heavy material coated molybdenum cast iron sphere in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small-diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by coating and mixing of lubricious material + one kind of turbine by accelerating heavier material silver sphere in vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), use a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with lubricious material + one type of heavy material coated silver sphere as an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to save and use + reducing friction by covering and mixing with a lubricious material + a kind of platinum ball of heavier substance as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction reduction by coating or mixing with a lubricious material + Heavy substance coated platinum spheres are accelerated together with the impact reducing means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction and generating electricity with one kind of turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated gold sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise Use the device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + reduce friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate platinum alloy balls vertically downward + Shift from theoretical best engine to best engine results + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + friction reduction by coating and mixing with a lubricious material + heavy material in a vacuum direction rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold alloy ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise A small-diameter output increasing sphere (2E) is lifted and stored together with an impact reducing means (2G) in the apparatus (2F) + friction reduction by coating and mixing of a lubricious material + one kind of turbine as a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the lead alloy ball vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + acceleration of heavy substances with the impact reducing means (2G) and 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined use with ascending storage + Friction reduction by coating and mixing of lubricating material + Various energy storage cycle coalescence engine that accelerates heavy alloy silver alloy balls in the vacuum direction and generates electricity with one turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined use with ascending storage + Friction reduction by coating and mixing of lubricating material + Coated engine of various energy storage cycle that generates power with one kind of turbine by accelerating the platinum alloy balls coated with heavier substances in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing with lubricious materials + Coated engine with various energy storage cycles that generates heavy material coated gold alloy balls in a vacuum direction in rolling contact with a single turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆鉛球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricious materials + Various energy storage cycle coalescing engines that generate heavier material coated lead spheres in a single turbine with accelerated rolling contact in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + Coarse engine of various energy storage cycle that accelerates heavy alloy coated silver alloy ball together with impact reduction means (2G) and generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with lubricious materials + Accelerates heavy substances in the vacuum direction and generates electricity with one type of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + one kind of turbine by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + friction reduction by coating and mixing with a lubricious material + heavy material in a vacuum direction rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one type of heavier substance as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the tantalum alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + acceleration of heavy substances with the impact reducing means (2G) and 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + Various energy generated by a single turbine by accelerating heavy substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating molybdenum steel balls vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Fully electrified house prime + Increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various types of power generation with a single type of turbine in accelerated rolling contact with heavy substances Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating molybdenum cast iron balls vertically downwards by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times. In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various kinds of power generation with a single type of turbine as heavier substances are accelerated in rolling contact with vacuum Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricating material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by coating and mixing of lubrication material + heavy material silver sphere is accelerated in vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), a small-diameter output increasing sphere (2E) is lifted and stored together with impact reduction means (2G) + friction reduction by coating or mixing with a lubricious material + one kind of silver sphere accelerated by a heavier substance is accelerated in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + heavy type platinum ball is used as one type of turbine with accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + One type of platinum ball with a heavier material coated as an accelerated rolling contact Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( In 2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating or mixing with a lubricious material. + A heavy metal ball is accelerated together with the impact reducing means (2G). Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated gold sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with lubricious materials + Accelerates heavy substances in the vacuum direction and generates electricity with one type of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate platinum alloy balls vertically downward + Shift from theoretical best engine to best engine results + Increase ball rise Use the device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + reduce friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold alloy ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + friction reduction by coating and mixing with a lubricious material + heavy material in a vacuum direction rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the lead alloy ball vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise A small-diameter output increasing sphere (2E) is lifted and stored together with an impact reducing means (2G) in the apparatus (2F) + friction reduction by coating and mixing of a lubricious material + one kind of turbine as a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the silver alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + acceleration of heavy substances with the impact reducing means (2G) and 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + Heavy material coating Various energy storage cycle coalescing engines that accelerate platinum alloy balls in the vacuum direction and generate electricity with one turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricating materials + Coated engine with various energy storage cycles that accelerates the heavier coated gold alloy balls in the vacuum direction to generate electricity with one turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆鉛球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing with lubricious materials + Combined engine of various energy storage cycles to generate electricity with one kind of turbine in the accelerated rolling contact with a heavy material coated lead ball. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing with lubricious materials + Coated engine with various energy storage cycles to generate heavier material coated silver alloy sphere in vacuum direction in rolling contact with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + Combined various energy storage cycle engines that accelerate heavy alloy tungsten alloy balls with impact reduction means (2G) and generate electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise Use the device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + reduce friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Using a rising device (2F) with a small-diameter output increasing ball (2E) together with an impact reducing means (2G) to save and use + reducing friction by coating or mixing with a lubricious material + a kind of turbine with a heavy substance as an accelerated rolling contact in a vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the tantalum alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise A small-diameter output increasing sphere (2E) is lifted and stored together with an impact reducing means (2G) in the apparatus (2F) + friction reduction by coating and mixing of a lubricious material + one kind of turbine as a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best engine result + increasing sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing the lubricating material + accelerating heavy substances with the impact reducing means (2G) Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating molybdenum steel balls vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Fully electrified house prime + Increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + various energy storage that accelerates heavy substances in the vacuum direction and generates electricity with one kind of turbine Cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + acceleration of heavier substances in the vacuum direction and generating electricity with one kind of turbine Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating molybdenum cast iron balls vertically downwards by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energies that generate heavy substances in a single turbine with accelerated rolling contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + Reduce friction by coating and mixing with a lubricious material + Generate heavier substances in a single turbine as accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times + a fully electrified house with a rising sphere rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by coating and mixing with lubricious materials + heavy substances are accelerated together with impact reducing means (2G) to generate electricity with one kind of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by coating and mixing of lubricant material + heavy material coated silver sphere is accelerated in the vacuum direction to make one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with a lubricious material + Accelerates heavier platinum spheres in the vacuum direction to create one type of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆白金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating or mixing with a lubricious material. Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small diameter output increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + one kind of heavier material gold ball as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G). + Friction is reduced by coating or mixing with a lubricious material. + The heavy metal coated gold sphere is accelerated together with the impact reduction means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate platinum alloy balls vertically downward + Shift from theoretical best engine to best engine results + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with lubricious materials + Accelerates heavy substances in the vacuum direction and generates electricity with one type of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold alloy ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise Use the device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + reduce friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the lead alloy ball vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + friction reduction by coating and mixing with a lubricious material + heavy material in a vacuum direction rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the silver alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise A small-diameter output increasing sphere (2E) is lifted and stored together with an impact reducing means (2G) in the apparatus (2F) + friction reduction by coating and mixing of a lubricious material + one kind of turbine as a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbine is installed in multiple stages to accelerate the coated platinum alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing the lubricating material + accelerating heavy substances with the impact reducing means (2G) Various energy storage cycle coalescence engine that generates electricity with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing with lubricating materials + Coated engine with various energy storage cycles that accelerates the heavy alloy coated gold alloy balls in the vacuum direction and generates electricity with one type of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆鉛球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricating materials + Coated engines of various energy storage cycles that generate electricity with a single turbine by accelerating the heavier material coated lead sphere in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricating materials + Coated engine with various energy storage cycles that generates heavy material coated silver alloy balls in a vacuum-accelerated rolling contact with a single turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のタングステン合金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Combined with the use of ascending storage + Reduced friction by coating and mixing of lubricious materials + Various energy storage cycle coalescence engine that generates tungsten alloy ball of heavier material in vacuum direction in rolling contact with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タングステン合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + Heavy energy coating Tungsten alloy balls are accelerated together with impact reduction means (2G), and various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) for storage and preservation + Reduces friction by coating and mixing with lubricious materials + Accelerates heavy substances in the vacuum direction and generates electricity with one type of turbine Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + one kind of turbine by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the tantalum alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + friction reduction by coating and mixing with a lubricious material + heavy material in a vacuum direction rolling contact with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best engine result + increasing sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one type of heavier substance as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the molybdenum steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + acceleration of heavy substances with the impact reducing means (2G) and 1 Various energy storage cycle coalescence engine that generates electricity with various types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + Various energy generated by a single turbine by accelerating heavy substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating molybdenum cast iron balls vertically downwards by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various types of power generation with a single type of turbine in accelerated rolling contact with heavy substances Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times + a fully electrified house with a rising sphere rising device (2F) Using a small-diameter output increasing sphere (2E) ascending and storing together with an impact reducing means (2G) + friction reduction by coating and mixing with a lubricious material + various energies to generate electricity in a single turbine as a heavier substance in an accelerated rolling contact with vacuum Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reducing means (2G) to accelerate with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter power increasing sphere (2E) is lifted and stored together with impact reducing means (2G) + Friction is reduced by coating and mixing of lubricating material + Platform ball of heavy substance is accelerated in vacuum direction with one kind of turbine Various energy storage cycle coalescence engine that generates electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金球を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), small diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + heavy type gold ball is used for accelerated rolling contact in vacuum direction and one kind of turbine Various energy storage cycle coalescence engine that generates electricity at タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金球を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious material + One type of heavier material coated gold sphere as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engines that generate electricity with the turbines of タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の白金合金球を衝撃低減手段(2G)と共に加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + A heavy platinum alloy ball is accelerated together with the impact reducing means (2G). Various energy storage cycle coalescing engines that generate electricity with one type of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+金合金球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) is used for ascending storage + friction reduction by coating and mixing of lubrication material + gold alloy ball with a vertical turbine moving turbine gravity turbine aiming to increase the amount of accelerated power generation in the vacuum direction. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の鉛合金球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) is used for ascending storage + friction reduction by coating and mixing of lubrication material + multi-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier lead alloy balls in the vacuum direction Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀合金球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) is used for ascending storage + friction reduction by coating and mixing of lubricating materials + multi-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy alloy silver alloy balls in a vacuum accelerated rolling contact Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆白金合金球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) is used for ascending storage + friction reduction by coating and mixing of lubricious materials + coating of heavier substances Platinum-type all-blade gravity turbines aiming at increased power generation by making the platinum alloy balls contact in an accelerated rolling contact in multiple stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆金合金球を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) + ascending storage use + friction reduction by coating and mixing of lubricious material + vertical rotor blade gravity turbine aiming at increased power generation by accelerating heavy material coated gold alloy balls together with impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated lead sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を竪型全動翼重力タービンを多段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated silver alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by covering and mixing the lubricating material + accelerate the heavier substances in the vacuum direction to increase the power generation amount Various energy storage cycle coalescing engines aiming at 1000 times the amount of power generation by installing a vertical all blade gravity turbine in multiple stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + increase the power generation amount by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + aiming to increase the amount of specific critical substances in the acceleration direction in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the tantalum alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best engine result + increasing sphere Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + increase the amount of power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the molybdenum steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated molybdenum steel ball vertically downward + theoretical best engine to experimental result best engine + increase ball Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing the lubricating material + accelerating heavy substances with the impact reducing means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating molybdenum cast iron balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver balls vertically by installing multiple stages of specific-material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times + accelerating the storage battery-powered various ships + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the platinum ball vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold ball vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + accelerating the storage battery drive various vessels + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating platinum alloy balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + accelerating the storage battery-driven various ships + increasing ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the lead alloy ball vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating silver alloy balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for accelerating the coated platinum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for accelerating the coated gold alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated lead sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + accumulating sphere lifting device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + aiming to increase the power generation amount by using heavy substances in accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating tungsten alloy balls vertically downward by providing multiple stages of specific material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for accelerating the coated tungsten alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + aiming to increase the power generation amount by using heavy substances in accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating tungsten steel balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increasing power generation by accelerating rolling contact Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tungsten steel ball vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + aiming to increase the power generation amount by using heavy substances in accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy ball vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific gravity material turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + Aiming to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating molybdenum steel balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated molybdenum steel ball vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + Aiming to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋳鉄球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating molybdenum cast iron balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋳鉄球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated molybdenum cast iron ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + heavy substances are accelerated together with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one type of turbine with multi-stage vertical rotor blade gravity turbine aiming at increase. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver balls vertically by installing multiple stages of specific-material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times + accelerating the storage battery-powered various ships + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the platinum ball vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold ball vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + accelerating the storage battery drive various vessels + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and save + reduce friction by coating and mixing with lubricious materials + multistage vertical rotor blade gravity turbine aiming at the same amount of water and maximum power generation Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + Reduces friction by covering and mixing lubricating materials + Multistage vertical rotor blade gravity turbine aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating platinum alloy balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + Reduces friction by covering and mixing lubricating materials + Multistage vertical rotor blade gravity turbine aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + accelerating the storage battery-driven various ships + increasing ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + Reduces friction by covering and mixing lubricating materials + Multistage vertical rotor blade gravity turbine aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the lead alloy ball vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + Reduces friction by covering and mixing lubricating materials + Multistage vertical rotor blade gravity turbine aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the silver alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise Increase the head with the device (2F) + Increase the sphere rising device (2F) and use the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + Reduce friction with lubrication material coating and mixing + Specific material This is an engine that combines various energy storage cycles for power generation with one type of turbine, which is equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbine is installed in multiple stages to accelerate the coated platinum alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere The rising device (2F) increases the head + the increasing ball rising device (2F) uses the small-diameter output increasing ball (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by covering and mixing the lubricating material + heavier Various energy conservation cycle coalescence engine of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming to increase power generation amount by accelerating material in vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best experimental result + increasing sphere The rising device (2F) increases the head + the increasing ball rising device (2F) uses the small-diameter output increasing ball (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by covering and mixing the lubricating material + heavy substances This is an engine that combines various energy conservation cycles of power generation with one type of turbine, which is equipped with a multi-stage vertical moving blade gravity turbine that aims to increase the amount of power generation by making the accelerating rolling contact in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鉛球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated lead sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation as vacuum accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated silver alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere The rising device (2F) increases the head + the increasing ball rising device (2F) uses the small-diameter output increasing ball (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by covering and mixing the lubricating material + heavy substances This is an engine that combines various energy conservation cycles of power generation with a single type of turbine, which is equipped with a multi-stage vertical moving blade gravity turbine that accelerates the engine together with impact reduction means (2G) to increase the amount of power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by covering and mixing the lubricating material + accelerate the heavier substances in the vacuum direction to increase the power generation amount Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + increase the power generation amount by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the tantalum alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+被覆タンタル合金球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Coating tantalum alloy balls are combined with various types of energy storage cycle for power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming to increase the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋼球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy storage cycles for power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation by accelerating the heavier molybdenum steel ball in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋼球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation by using heavy coated molybdenum steel balls in the vacuum direction and rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋳鉄球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming to increase power generation amount by using molybdenum cast iron ball of heavier material in a vacuum accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage vertical moving blade gravity turbine aiming to increase power generation by accelerating heavy material coated molybdenum cast iron ball together with impact reduction means (2G). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀球を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver balls vertically downward by providing multiple stages of specific material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Acceleration turbine drive with a small diameter of the output increase sphere (2E) + lubrication Reducing friction by covering and mixing functional materials + specific energy-saving cycle coalescence engine for power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆銀球を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated silver sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Accelerating turbine driving with a small output sphere (2E) + Friction reduction by coating and mixing of lubricating material + Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the platinum sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross-section (4X) of 2 to 25 times + Acceleration turbine drive with a small diameter of the output increase sphere (2E) + lubrication Coefficient engine with various types of energy conservation cycle for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation by reducing friction by covering and mixing with functional material + accelerating rolling contact with heavy substances in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated platinum sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + driving the acceleration turbine with a small diameter of the output increase sphere (2E) + Friction reduction by coating and mixing of lubricating materials + Combined engine for various energy conservation cycle of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated contact in the vacuum direction . タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold ball vertically downward by providing multiple stages of specific-material gravity power generation turbines having a turbine blade cross section (4X) of 2 to 25 times + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + lubrication Reducing friction by covering and mixing functional materials + Accelerating heavy substances together with impact reduction means (2G) to increase the amount of power generation A single type turbine equipped with multi-stage vertical rotor blade gravity turbines for various power storage cycles Combined organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated gold ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating platinum alloy balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + various energy generated by a single turbine by accelerating heavier substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the lead alloy ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 2 to 25 times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver alloy balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+被覆白金合金球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Coated platinum alloy balls aiming to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆金合金球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Accelerates the heavier material coated gold alloy sphere in the vacuum direction to generate electricity Combined engine of various energy conservation cycles for power generation with one type of turbine with multi-stage vertical rotor blade gravity turbine aiming at increase. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆鉛球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavy material-coated lead ball as an accelerated rolling contact in a vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀合金球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), use a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reduce friction by coating and mixing with lubricious material + power generation using a silver alloy sphere coated with heavier material as an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン合金球を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage with impact reducing means (2G) + friction reduction by covering and mixing with lubricious material + accelerating heavy substance tungsten alloy sphere with impact reducing means (2G) This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine that aims to increase power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten alloy sphere vertically downward + Shift from theoretical best engine to best engine result + increase sphere Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + aiming to increase the amount of specific critical substances in the acceleration direction in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + increase the amount of power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the tantalum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best engine result + increasing sphere Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + increase the power generation amount by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best engine result + increasing sphere Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing the lubricating material + accelerating heavy substances with the impact reducing means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+モリブデン鋼球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + Save various energy of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming to increase the amount of accelerated power generation of molybdenum steel ball in the vacuum direction Cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋼球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of multi-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating the molybdenum steel ball of heavier material in the vacuum direction Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のモリブデン鋳鉄球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type turbine with multi-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavy molybdenum cast iron ball in the vacuum direction rolling contact In the various energy conservation cycle coalescence engine of power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋳鉄球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing of lubricating materials + Coated molybdenum cast iron balls with heavier substances in a vacuum accelerated rolling contact aiming at increased power generation 1 Combined engine with various energy storage cycles for power generation with different types of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Multistage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavy material silver sphere with impact reduction means (2G) Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+被覆銀球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + the vertical type aiming at increasing the amount of accelerated power generation in the vacuum direction of the coated silver sphere Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の白金球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + Reduce friction by coating and mixing with a lubricious material + Accelerate the heavier material platinum sphere in the vacuum direction to generate electricity Combined engine of various energy conservation cycles for power generation with one type of turbine with multi-stage vertical rotor blade gravity turbine aiming at increase. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated platinum sphere vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and used together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + Aiming to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated gold sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for accelerating platinum alloy balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + full electrified house prime + increasing ball rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the lead alloy ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 2 to 25 times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver alloy balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for accelerating the coated platinum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+被覆金合金球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with a lubricious material + All-type saddle type aiming to increase the accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆鉛球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) for storage + Reduces friction by coating and mixing with lubricious materials + Increases power generation by accelerating the heavier material coated lead sphere in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀合金球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Heavy material coated silver alloy spheres in a vacuum accelerated rolling contact to generate electricity Combined engine of various energy conservation cycles for power generation with one type of turbine with multi-stage vertical rotor blade gravity turbine aiming at increase. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のタングステン合金球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F), use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to save and use + reduce friction by coating and mixing with lubricious material + use of tungsten alloy sphere of heavier substance as accelerated rolling contact in vacuum direction to generate electricity Combined engine of various energy conservation cycles for power generation with one type of turbine with multi-stage vertical rotor blade gravity turbine aiming at increase. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆タングステン合金球を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output sphere (2E) is lifted and stored together with impact reduction means (2G) + Reduced friction by lubrication material coating and mixing + Heavy substance coated tungsten alloy sphere is accelerated with impact reduction means (2G) This is a combined energy storage cycle engine for generating electricity with one kind of turbine, which is equipped with a multi-stage vertical blade gravity turbine that aims to increase power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate tungsten steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by covering and mixing the lubricating material + accelerate the heavier substances in the vacuum direction to increase the power generation amount Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the tantalum alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best engine result + increasing sphere Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + increase the power generation amount by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the molybdenum steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+被覆モリブデン鋼球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Coated molybdenum steel balls aiming at increasing the amount of power generation accelerated in the vacuum Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質のモリブデン鋳鉄球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type turbine with multi-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating the heavier molybdenum cast iron ball in the vacuum direction In the various energy conservation cycle coalescence engine of power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆モリブデン鋳鉄球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing lubricant materials + Heavy material coated One type of multi-stage vertical blade gravity turbine that aims to increase power generation by moving molybdenum cast iron balls in the vacuum direction in rolling contact Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の銀球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type turbine with multi-stage vertical rotor blade gravity turbine aiming to increase power generation by using silver ball of heavier substance in the vacuum direction and rolling contact In the various energy conservation cycle coalescence engine of power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の被覆銀球を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious materials + Multistaged vertical blade gravity turbines aiming to increase power generation by accelerating heavy material coated silver spheres together with impact reduction means (2G) Combined engine with various energy conservation cycles for power generation with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the platinum sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated platinum sphere vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the gold sphere vertically downward + Shift from the theoretical best engine to the best experimental result + Increase sphere raising device In (2F), the small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + aiming to increase the power generation amount by using heavy substances in accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated gold sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて白金合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate platinum alloy balls vertically downward + Shift from theoretical best engine to best engine results + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて金合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gold alloy ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + full electrified house prime + increasing ball rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鉛合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the lead alloy ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 2 to 25 times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて銀合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating silver alloy balls vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆白金合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for accelerating the coated platinum alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆金合金球を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated gold alloy sphere vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+被覆鉛球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Vertically moving blades aiming at increasing the amount of accelerated power generation in the vacuum direction of the coated lead sphere Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀合金球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Reduced friction by coating or mixing with lubricious materials + Heavier material coated silver alloy balls are accelerated in the vacuum direction to generate electricity Combined engine of various energy conservation cycles for power generation with one type of turbine with multi-stage vertical rotor blade gravity turbine aiming at increase. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン合金球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavy alloy tungsten alloy ball as an accelerated rolling contact in a vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆タングステン合金球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Heavier material coated tungsten alloy spheres in a vacuum accelerated rolling contact for power generation Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質のタングステン鋼球を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. + The heavy substance tungsten steel ball is accelerated together with the impact reducing means (2G). This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine that aims to increase power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タングステン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated tungsten steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + aiming to increase the amount of specific critical substances in the acceleration direction in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてタンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the tantalum alloy sphere vertically downward + Shift from the theoretical best engine to the best engine result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆タンタル合金球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated tantalum alloy sphere vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + shifting from the theoretical best engine to the best engine result + increasing sphere Use the ascending device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + reduce friction by coating and mixing with a lubricious material + increase the amount of power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けてモリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the molybdenum steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multiple vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆モリブデン鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated molybdenum steel ball vertically downward + theoretical best engine to experimental result best engine + increase ball Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing the lubricating material + accelerating heavy substances with the impact reducing means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+モリブデン鋳鉄球を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Molybdenum cast iron ball saves various energy of power generation with one type turbine with multi-stage vertical moving blade gravity turbine aiming to increase the amount of accelerated power generation in the vacuum direction Cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆モリブデン鋳鉄球を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of multi-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating molybdenum cast iron balls with heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質の銀球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + One type turbine with multi-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavy material silver sphere as accelerated rolling contact in vacuum direction Various energy storage cycle coalescence engine for power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質の被覆銀球を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of multi-stage vertical rotor gravity turbine that aims to increase power generation by using silver spheres coated with heavier substances in an accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is double the specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) three-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 9 times the turbine blade cross-section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity critical power turbines with 10 times the critical material gravity turbine turbine cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of 11 times the critical material gravity power generation turbine with the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is 12 times more specific material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downwards + full electrified house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を14倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity blade power generation output sphere (2E) 14 times the specific gravity material gravity power generation sphere (2E) vertically downward with gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + sphere rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific critical material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を17倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere ascent device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to experimental result best engine + Incremental ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 19 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 20 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 21 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 22 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を24倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を2倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is double the specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を3倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 9 times the turbine blade cross-section (4X) + full electrified house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity critical power turbines with 10 times the critical material gravity turbine turbine cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of 11 times the critical material gravity power generation turbine with the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is 12 times more specific material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downwards + full electrified house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity blade power generation output sphere (2E) 14 times the specific gravity material gravity power generation sphere (2E) vertically downward with gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を15倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + sphere rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific critical material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere ascent device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を18倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 19 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 20 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 21 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 22 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing 23 stages of specific gravity material gravity power generation turbines with 23 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を2倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is double the specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を3倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を4倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity critical power turbines with 10 times the critical material gravity turbine turbine cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of 11 times the critical material gravity power generation turbine with the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is 12 times more specific material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downwards + full electrified house prime + increase ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the critical blade material cross section (4X) + full electrification of the house + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + sphere rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を16倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific critical material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere ascent device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を19倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 20 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 21 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 22 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing 23 stages of specific gravity material gravity power generation turbines with 23 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24 times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を2倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is double the specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を3倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を4倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を5倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of 11 times the critical material gravity power generation turbine with the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is 12 times more specific material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downwards + full electrified house prime + increase ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the critical blade material cross section (4X) + full electrification of the house + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 15 times the turbine blade cross section (4X) + full electrification house priming + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific critical material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を17倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere ascent device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を20倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 21 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 22 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing 23 stages of specific gravity material gravity power generation turbines with 23 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24 times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is double the specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を3倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を4倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を5倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を6倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase sphere lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is 12 times more specific material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downwards + full electrified house prime + increase ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the critical blade material cross section (4X) + full electrification of the house + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 15 times the turbine blade cross section (4X) + full electrification house priming + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 16-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage specific material in the vertical downward direction. A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere ascent device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を18倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere lift (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を21倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery-powered various automobile primes + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific critical material gravity power generation output increasing sphere (2E) with vacuum configuration and method of vacuuming and accelerating vertically + storage battery driven vehicles + increasing sphere raising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を23倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation output increasing sphere (2E) with vacuum configuration and method for vacuuming and accelerating vertically + various battery-powered vehicles + increasing sphere raising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を24倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24 times specific material gravity power generation output increasing sphere (2E) with a structure and method of sucking and accelerating vertically downward with vacuum + various battery-powered vehicles + increasing sphere raising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of sucking and accelerating the gravity sphere (2E) with a specific gravity of 25 times larger than the turbine blade cross section (4X) in the vertical direction with vacuum + various battery-powered vehicles + with the increasing sphere raising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is twice the specific material gravity power generation output increasing sphere (2E) with a structure and method for sucking and accelerating vertically downward in vacuum + various battery-powered vehicles + increasing sphere raising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is tripled specific gravity material gravity power generation output increasing sphere (2E) in the vacuum and vertically accelerated structure and method + storage battery drive various vehicles + increasing sphere lifting device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of sucking and accelerating the gravity blade power generation output increase sphere (2E) four times higher in the turbine blade cross section (4X) in the vertical direction with vacuum + the storage battery drive various vehicles + the increase sphere lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times specific critical material gravity power generation output increasing sphere (2E) with vacuum configuration and method for vacuuming and accelerating vertically + various battery-powered vehicles + increasing sphere raising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times specific gravity material Gravitational power generation output increasing sphere (2E) with vacuum configuration and method for vacuuming and accelerating vertically + battery driving various vehicles + increasing sphere raising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output increasing sphere (2E) with vacuum configuration and method for vacuuming and accelerating vertically + battery driving various vehicles + increasing sphere raising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-driven various ships + Intensifying ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships primed + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + storage battery-powered vessels + a sphere rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated mercury vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various vessels + with the increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + accelerating the storage battery-driven various ships + Intensifying ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 15 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 16 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + with an increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 17 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ship primes + intensifying ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 20 times in the vertical direction + Intensifying ball drive device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) with a 21-fold specific gravity material gravity power generation turbine in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships prime + with an increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 23 times specific material gravity power generation turbines installed in multiple stages to accelerate the covered mercury vertically downward + acceleration of battery powered various ships + increase ball lift device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + Intensifying sphere ascending device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + acceleration of the storage battery-driven vessels + increasing ball lift device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with triple the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + intensifying ball lift device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + Intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + Intensifying sphere ascending device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-driven various ships + Intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships primed + intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + storage battery-powered vessels + a sphere rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated mercury vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various vessels + with the increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + accelerating the storage battery-driven various ships + Intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 15 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 16 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + with an increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 17 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ship primes + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F ) To raise the head as much as possible + increase and use a small-diameter output increasing sphere (2E) together with impact reducing means (2G) with an increasing sphere rising device (2F) + reduce friction by coating or mixing with a lubricious material + more serious Various energy storage cycle coalescence engine of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times the specific material gravity power generation turbine is installed in multiple stages to accelerate the steel ball vertically downward + Shift from the theoretical best engine to the best engine result of the experiment + Increase ball rising device (2F ) To raise the head as much as possible + increase and use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) with an increasing sphere rising device (2F) + reduce friction by coating and mixing with a lubricious material + heavier Various energy conservation cycle coalescence engine of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming to increase power generation amount by accelerating material in vacuum direction. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21 times the specific material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best experimental results + Increase ball rising device (2F ) Ascend the head as much as possible + Increase the sphere rising device (2F) and use the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and use + Reduce friction by coating and mixing with lubricious materials + Heavy substances This is an engine that combines various energy conservation cycles of power generation with one type of turbine, which is equipped with a multi-stage vertical moving blade gravity turbine that aims to increase the amount of power generation by making the accelerating rolling contact in the vacuum direction. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 22-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device (2F ) To raise the head as much as possible + increase and use a small-diameter output increasing sphere (2E) together with impact reduction means (2G) with an increasing sphere rising device (2F) + reduce friction by coating and mixing with a lubricious material + heavier Various energy conservation cycle coalescence engine of power generation with one type turbine equipped with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation amount by making material in vacuum accelerated rolling contact. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best experimental results + Increase ball rising device (2F ) Ascend the head as much as possible + Increase the sphere rising device (2F) and use the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and use + Reduce friction by coating and mixing with lubricious materials + Heavy substances This is an engine that combines various energy conservation cycles of power generation with a single type of turbine, which is equipped with a multi-stage vertical moving blade gravity turbine that accelerates the engine together with impact reduction means (2G) to increase the amount of power generation. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24 times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を6倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を7倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 7 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を8倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を9倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase sphere lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 14-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 15 times the turbine blade cross section (4X) + full electrification house priming + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 16-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage specific material in the vertical downward direction. A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 17 times the turbine blade cross-section (4X) + full electrification house prime + increase ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 18 times specific material gravity power generation turbines installed in multiple stages to accelerate the cover material material vertically vertically + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を21倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery-powered various automobile primes + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 22 times specific critical material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を24倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 25 times in the vertical direction + Incremental ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + acceleration ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + acceleration ball lift device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4X) + acceleration ball lifting device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + acceleration ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を7倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 7 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を8倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を9倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を10倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase sphere lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 14-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 15-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 16-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage specific material in the vertical downward direction. The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 17 times the turbine blade cross-section (4X) + full electrification house prime + increase ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 18 times specific material gravity power generation turbines installed in multiple stages to accelerate the cover material material vertically vertically + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   With a structure and method of accelerating the coating material critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 20 times the turbine blade cross section (4X) + full electrification of the house + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery-powered various automobile primes + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を22倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 22 times specific critical material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) specific gravity material gravity power generation output increase sphere (2E) 25 times the structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 7 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を8倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を9倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を11倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 14-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 15-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 16-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 17 times the turbine blade cross-section (4X) + full electrification house prime + increase ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 18 times specific material gravity power generation turbines installed in multiple stages to accelerate the cover material material vertically vertically + full electrified house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   With a structure and method of accelerating the coating material critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 20 times the turbine blade cross section (4X) + full electrification of the house + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is a 21-fold specific gravity material gravity power generation turbine with multiple stages to accelerate the coverage material seriously vertically downward + full electrification house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 22 times specific critical material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を23倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) specific gravity material gravity power generation output increase sphere (2E) 25 times the structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を2倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を9倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を10倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を11倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を12倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 14-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 15-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 16-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 18 times specific material gravity power generation turbines installed in multiple stages to accelerate the cover material material vertically vertically + full electrified house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   With a structure and method of accelerating the coating material critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 20 times the turbine blade cross section (4X) + full electrification of the house + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is a 21-fold specific gravity material gravity power generation turbine with multiple stages to accelerate the coverage material seriously vertically downward + full electrification house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 22 times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を24倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) specific gravity material gravity power generation output increase sphere (2E) 25 times the structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を3倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) triple specific gravity material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with eight times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best experimental result engine + Incrementing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を10倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を11倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を12倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を13倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 13 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 14-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 15-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 16-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   With a structure and method of accelerating the coating material critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 20 times the turbine blade cross section (4X) + full electrification of the house + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is a 21-fold specific gravity material gravity power generation turbine with multiple stages to accelerate the coverage material seriously vertically downward + full electrification house prime + increase ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 22 times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 23 times specific material gravity power generation turbines installed in multiple stages to accelerate coverage material seriously vertically downward + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) specific gravity material gravity power generation output increase sphere (2E) 25 times the structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) triple specific gravity material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increasing power generation by accelerating rolling contact in the vacuum Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with eight times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best experimental result engine + Incrementing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を11倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を12倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を13倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 13 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 15-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 16-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   With a structure and method of accelerating the coating material critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 20 times the turbine blade cross section (4X) + full electrification of the house + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is a 21-fold specific gravity material gravity power generation turbine with multiple stages to accelerate the coverage material seriously vertically downward + full electrification house prime + increase ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 22 times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 23 times specific material gravity power generation turbines installed in multiple stages to accelerate coverage material seriously vertically downward + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) specific gravity material gravity power generation output increase sphere (2E) 25 times the structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を2倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) triple specific gravity material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with eight times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best experimental result engine + Incrementing ball lifting device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を12倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を13倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 13 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 16-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is a 21-fold specific gravity material gravity power generation turbine with multiple stages to accelerate the coverage material seriously vertically downward + full electrification house prime + increase ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 22 times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 23 times specific material gravity power generation turbines installed in multiple stages to accelerate coverage material seriously vertically downward + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) double specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various vehicles prime + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を3倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) triple specific gravity material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with eight times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best experimental result engine + Incrementing ball lifting device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 9 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material power generation turbines with 11 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を13倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 13 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を14倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times specific gravity material Gravitational power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 22 times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with 23 times specific material gravity power generation turbines installed in multiple stages to accelerate coverage material seriously vertically downward + full electrified house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the cover ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) triple specific gravity material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を4倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times specific material gravity power generation increase sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles + increase sphere lift (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific material Gravitational power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific critical material gravity power generation output increasing sphere (2E) with a structure and method of sucking and accelerating vertically downward in vacuum + turbine driving with specific critical material + increasing sphere raising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を9倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times specific gravity material gravity power generation output increasing sphere (2E) with vacuum construction and method of sucking and accelerating vertically downwards + turbine driving with specific material + increase sphere rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を10倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) with a 10 times larger critical gravity material power generation output sphere (2E) vertically under vacuum + turbine driving with a specific gravity material + a rising sphere lift (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を11倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for sucking and accelerating the gravity-power-generating output sphere (2E) with 11 times the specific critical material gravity power generation vacuum vertically in the turbine blade cross-section (4X) + with the increase sphere rising device (2F) driven by the turbine with the specific critical material A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific critical material gravity power generation output increasing sphere (2E) with a structure and method of sucking and accelerating vertically downward with vacuum + specific spherical material turbine driving + increasing sphere raising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of sucking and accelerating the gravity-power generation output increase sphere (2E) 13 times the specific critical substance gravity power in the vacuum vertically with the turbine blade cross-section (4X) + with the increase sphere raising device (2F) driven by the specific critical substance turbine The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を14倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A configuration and method for sucking and accelerating the gravity sphere (2E) with a 14-fold specific critical substance gravity power generation output sphere (2E) vertically downward in a vacuum with a turbine blade driven with a specific critical substance + a rising sphere raising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を15倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) with a specific critical material gravity power generation output (2E) 15 times lower than the turbine blade cross-section (4X) + the sphere rising device (2F) driven by the turbine with the specific critical material + A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を16倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific gravity material gravity power generation output increasing sphere (2E) with vacuum construction and method of sucking and accelerating vertically downward + specific gravity material turbine drive + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific gravity material gravity power generation output increasing sphere (2E) with vacuum construction and method of sucking and accelerating vertically down + turbine driving with specific material + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downwards + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 20 times in the vertical direction + Intensifying ball drive device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) with a 21-fold specific gravity material gravity power generation turbine in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships prime + with an increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 23 times specific material gravity power generation turbines installed in multiple stages to accelerate the covered mercury vertically downward + acceleration of battery powered various ships + increase ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + Intensifying sphere ascending device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + storage battery-powered various ship priming + intensifying ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with triple the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + intensifying ball lift device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + Intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 6 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + Intensifying sphere ascending device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-driven various ships + Intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various ships primed + intensifying ball lift device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + storage battery-powered vessels + a sphere rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated mercury vertically downward by providing multiple stages of 11-fold specific gravity material gravity power generation turbines with a turbine blade cross section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various vessels + with the increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of 13-fold specific gravity material gravity power generation turbines with a turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + with an increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 15 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 16 times the turbine blade cross section (4X) + accelerating the storage battery-powered various ships + with an increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 17 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ship primes + intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19-fold specific material gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 20 times in the vertical direction + Intensifying ball drive device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21 times specific gravity material Gravity power generation turbines are arranged in multiple stages to accelerate the covered mercury vertically downward + storage battery-powered various vessels primed + with an increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 23 times specific material gravity power generation turbines installed in multiple stages to accelerate the covered mercury vertically downward + acceleration of battery powered various ships + increase ball lift device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 24 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships primed + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 25 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + Intensifying sphere ascending device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + acceleration of the storage battery-driven vessels + increasing ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with triple the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending storage together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 4 times the turbine blade cross-section (4X) + accelerating the storage battery-powered various ships + Intensifying ball lift device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + multi-stage vertical rotor blade gravity turbine aiming at the same maximum water output Various types of energy storage cycle coalescence engine for power generation with one kind of turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Incremental ball lifting device (2F ) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) ascending and storage with impact reduction means (2G) + Reduce friction by coating and mixing with lubricious material + Specific critical substances in vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming to increase the amount of accelerated power generation. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by installing multiple stages of gravity-critical turbines with a specific material of 6 times the turbine blade cross-section (4X) + Shifting from the theoretical best engine to the best engine result + Incremental ball lift device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Heavier substances in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with a single type of turbine that is equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 7 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with the impact reduction means (2G) to save and save + Reduce friction by coating and mixing with lubricious material + Accelerate heavy substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing power generation as rolling contact. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating steel balls vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Incremental ball lift device (2F ) Increase the drop + Increase ball increase device (2F) and use the small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Heavier substances in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one kind of turbine, which is equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation as an accelerated rolling contact. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 9-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the steel ball vertically downward + Shift from the theoretical best engine to the best experimental result + Increase ball rising device (2F ) Increase head drop + Increase ball increase device (2F) Use small diameter output increase sphere (2E) ascending and storage with impact reduction means (2G) + Reduce friction by covering and mixing lubricant material + Impact reduction means for heavy substances (2G) Combined engine of various energy storage cycles for power generation with one type turbine provided with multi-stage vertical rotor blade gravity turbines that accelerate with 2G. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by installing multiple stages of specific gravity material gravity power generation turbines with 10 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material power generation turbines with 11 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine equipped with multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times specific material gravity power generation output equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を19倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific material in the vertical direction + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine equipped with multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A turbine blade cross section (4X) with a 25-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increase ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a quadruple turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 6 times specific material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accelerating storage battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9-fold specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + storage battery-powered various automobile primes + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を10倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material power generation turbines with 11 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 15 times + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を19倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を20倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific gravity material gravity power generation turbines are installed in multiple stages and the structure and method of accelerating the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Intensifying ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with twice the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a quadruple turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 6 times the turbine blade cross section (4X) + Fully electrified residential prime + Increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9-fold specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + storage battery-powered various automobile primes + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を11倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 12 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 15 times + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 16 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を19倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を20倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を21倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を22倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22-times specific gravity material Gravity power generation turbine is installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific gravity material gravity power generation turbines are installed in multiple stages and the structure and method of accelerating the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Intensifying ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) double specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with three times the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a quadruple turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 6 times the turbine blade cross section (4X) + Fully electrified residential prime + Increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 7 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times specific gravity material Gravitational power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery driven various vehicles prime + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を9倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9-fold specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + storage battery-powered various automobile primes + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を12倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + sphere rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 13 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 15 times + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 16 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times specific material gravity power generation output Equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を19倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を20倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を21倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を22倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を23倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23-fold specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best experimental result engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific gravity material gravity power generation turbines are installed in multiple stages and the structure and method of accelerating the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Intensifying ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) double specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) three-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a quadruple turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 6 times the turbine blade cross section (4X) + Fully electrified residential prime + Increase ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 7 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9-fold specific gravity material Gravitational power generation output sphere (2E) structure and method of accelerating vertically downward with gravitational acceleration + storage battery-powered various automobile primes + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を10倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + sphere rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を13倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 14 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increased ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 15 times + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 16 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to experimental result best engine + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を20倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を21倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を22倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を23倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を24倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific gravity material gravity power generation turbines are installed in multiple stages and the structure and method of accelerating the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Intensifying ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) double specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) three-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 5 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 6 times the turbine blade cross section (4X) + Fully electrified residential prime + Increase ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 7 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 9 times the turbine blade cross-section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を11倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + sphere rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を14倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity blade power generation output sphere (2E) 14 times the specific gravity material gravity power generation sphere (2E) vertically downward with gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 15 times + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 16 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to experimental result best engine + Incremental ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 19 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を21倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を22倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を23倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を24倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific gravity material gravity power generation turbines are installed in multiple stages and the structure and method of accelerating the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine experimental result + Intensifying ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) double specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) three-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity-critical turbines with a specific material of 6 times the turbine blade cross section (4X) + Fully electrified residential prime + Increase ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 7 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 9 times the turbine blade cross-section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity critical power turbines with 10 times the critical material gravity turbine turbine cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + increase sphere lift device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を12倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + sphere rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity blade power generation output sphere (2E) 14 times the specific gravity material gravity power generation sphere (2E) vertically downward with gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を15倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + sphere rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 16 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to experimental result best engine + Incremental ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 19 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 20 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を22倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を23倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を24倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) double specific gravity material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) three-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbine with 7 times the turbine blade cross section (4X) + full electrification house prime + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 9 times the turbine blade cross-section (4X) + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity critical power turbines with 10 times the critical material gravity turbine turbine cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of 11 times the critical material gravity power generation turbine with the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery drive various automobiles prime + sphere rising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を13倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を14倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity blade power generation output sphere (2E) 14 times the specific gravity material gravity power generation sphere (2E) vertically downward with gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + sphere rising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を16倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific critical material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を17倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold specific gravity material gravity power generation turbine is installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to experimental result best engine + Incremental ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を19倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 19 times the turbine blade cross section (4X) + Shifting from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を20倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 20 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を21倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel ball vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with a turbine blade cross section (4X) of 21 times + shifting from the theoretical best engine to the best engine result + increasing ball lifting device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reduction of friction by coating and mixing of lubrication materials + Combined various energy storage cycles of power generation with one type turbine with multi-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation of specific critical substances in the vacuum direction organ. タービン翼断面(4X)を23倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) with impact reduction means (2G) Preservation and use + Reduction of friction by coating and mixing of lubricating materials + Preservation of various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Cycle coalescence engine. タービン翼断面(4X)を24倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preservation + Reducing friction by coating and mixing with lubricious materials + Preserving various types of energy for power generation with a single type turbine equipped with a multi-stage vertical rotor blade gravity turbine that aims to increase power generation by using heavy substances in the vacuum accelerated rolling contact Cycle coalescence engine. タービン翼断面(4X)を25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Preserving + Reducing friction by coating and mixing with lubricious materials + Various types of energy for power generation with one type of turbine equipped with multi-stage vertical rotor blade gravity turbines aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) is double the specific material gravity power generation generation equipment method to make all turbine blades + increase ball rising device (2F) lift small diameter output increase ball (2E) together with impact reduction means (2G) Use for storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with a single-type turbine equipped with multi-stage vertical rotor blade gravity turbines that aim to increase power generation by accelerating heavy substances with impact reduction means (2G) Various energy conservation cycle coalescing engines. タービン翼断面(4X)を3倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) three-fold specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を4倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 4 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate the specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Intense ball lift device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を5倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times specific gravity material Gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from theoretical best engine to best engine result + Increase ball lift device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage all-blade gravity turbine. タービン翼断面(4X)を6倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific gravity material vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball lift device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を7倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7-times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the specific material in the vertical direction + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has a multi-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を8倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific gravity material gravity power generation turbines with 8 times the turbine blade cross section (4X) + full-scale electrified house priming + increasing ball rising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を9倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of specific material gravity power generation turbines with 9 times the turbine blade cross-section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を10倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of gravity critical power turbines with 10 times the critical material gravity turbine turbine cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を11倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coverage ratio critical material vertically downward by providing multiple stages of 11 times the critical material gravity power generation turbine with the turbine blade cross section (4X) + full electrified house prime + increasing ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を12倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) is 12 times more specific material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downwards + full electrified house prime + increase ball rising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を13倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + accumulating various battery-powered cars + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing of lubricating material + vertical moving blade gravity aiming to increase the amount of specific critical substances to be accelerated in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple stages. タービン翼断面(4X)を14倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the gravity blade power generation output sphere (2E) 14 times the specific gravity material gravity power generation sphere (2E) vertically downward with gravitational acceleration + accelerating various battery-powered vehicles + increasing sphere raising device (2F) In addition, the small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical motion that accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を15倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15-fold specific material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles prime + sphere rising device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-duty type full-motion aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を16倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times specific critical material gravity power generation output sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating various battery-powered automobiles + increasing sphere raising device (2F) The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + vertical type all that aims to increase power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with multiple moving blade gravity turbines. タービン翼断面(4X)を17倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times specific material gravity power generation output sphere (2E) structure and method for accelerating vertically downward by gravitational acceleration + storage battery powered various automobiles + increasing sphere ascent device (2F) The small-diameter output increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + accelerating heavy substances with the impact reducing means (2G) and aiming to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with multi-stage vertical turbine blade gravity turbine. タービン翼断面(4X)を18倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the specific gravity material gravity power generation output increase sphere (2E) 18 times the turbine blade cross section (4X) vertically downward with the vacuum + the increase sphere rising device (2F) driven by the specific critical material turbine The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を19倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19 times specific critical material gravity power generation output increasing sphere (2E) with a structure and method of sucking and accelerating vertically downward with vacuum + specific spheres with turbine + driven ball rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を20倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times specific critical material gravity power generation output increasing sphere (2E) with a structure and method of sucking and accelerating vertically downward with vacuum + specific spheres with turbine + driven ball rising device (2F) A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を21倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 21 times specific critical material gravity power generation output increasing sphere (2E) with a structure and method for sucking and accelerating vertically downward with vacuum + specific spherical material turbine driving + increasing sphere raising device (2F) A small-diameter output increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + vertical full-motion that aims at increasing power generation by using a heavier substance in an accelerated rolling contact with vacuum Combined engine of various energy storage cycles for power generation with one kind of turbine with multi-stage blade gravity turbine. タービン翼断面(4X)を22倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times specific critical material gravity power generation output increasing sphere (2E) with vacuum construction and method of vacuuming and accelerating vertically downward + turbine driving with specific critical material + increasing sphere raising device (2F) A small-diameter output increasing sphere (2E) is used for ascending storage together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + Accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one type turbine equipped with multi-stage full-blade gravity turbine. タービン翼断面(4X)を23倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 23 times specific critical material gravity power generation output increasing sphere (2E) with vacuum construction and method of sucking and accelerating vertically downward + specific critical material turbine driven + increasing sphere raising device (2F) The small diameter power increasing sphere (2E) is used for ascending and storing together with the impact reducing means (2G). + Friction is reduced by coating and mixing with a lubricious material. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in multiple stages. タービン翼断面(4X)を24倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times specific critical material gravity power generation output increasing sphere (2E) with a structure and method of sucking and accelerating vertically downward with vacuum + specific spheres with turbine + positive sphere rising device (2F) A small-diameter power increasing sphere (2E) is used for ascending and storage with impact reduction means (2G) + friction reduction by covering and mixing with lubricious material + vertical type moving blade aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   The configuration and method of sucking and accelerating the gravity sphere (2E) of the specific gravity material gravity generation output (2E) 25 times larger than the turbine blade cross section (4X) with the vacuum + the increase sphere ascent device (2F) driven by the specific gravity material A small diameter output increasing sphere (2E) is used for ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + heavy-weight all-type blade aiming at increasing power generation by accelerating rolling contact with heavy substances Combined engine of various energy storage cycles for power generation with one kind of turbine with multiple gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine that has two types of vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with three stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 4 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 5 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy conservation cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 6 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 7 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 8 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with nine gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 10 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 11 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 12 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 13 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 14 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 15 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 16 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one type of turbine with 17 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 18 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 19 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 20 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 21 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 22 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 23 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 26 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 27 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 28 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycle of power generation with one type turbine with 29 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 30 types of saddle type all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 31 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 32 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 33 stages of vertical rotor blade gravity turbines aiming at the same amount of water and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by covering and mixing with lubricious materials + 34 stages of vertical rotor blade gravity turbine aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) together with impact reduction means (2G) for storage + reducing friction by coating and mixing with a lubricious material + 35 stages of vertical rotor blade gravity turbines aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 36 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 37 stages of a vertical rotor blade gravity turbine aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances Combined engine of various energy conservation cycles for power generation with one kind of turbine with 38 types of vertical rotor blade gravity turbines aiming at increasing the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Combined engine of various energy conservation cycles for power generation with one kind of turbine with 39-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Various energy conservation cycle coalescence engine of power generation with one type turbine with 40-stage vertical all blade gravity turbine aiming at increasing power generation as directional acceleration rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 41 types of vertical rotor blade gravity turbine aiming at increasing power generation amount as vacuum accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Impact heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 42 types of vertical type moving blade gravity turbine that accelerates together with reduction means (2G) and aims to increase power generation amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 43 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 46 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one type turbine with 47 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce energy by using one kind of turbine with 48-stage vertical all-blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction to generate electricity with one kind of turbine with 49 stages of vertical rotor blade gravity turbines Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce power generation with a single-type turbine equipped with 50-stage vertical rotor blade gravity turbines aiming at increased power generation by using heavy substances in the vacuum-accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 51-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated vacuum rolling contact Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 52 stages that accelerates heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 53 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 54-stage vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 55-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycle of power generation with one type turbine with 56 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 57-type vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 58 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 59 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 60 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 61 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine that has 62 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 63 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 64 rotor turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 65 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine with 66 type full blade gravity turbines arranged in 66 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one kind of turbine with 67-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 68 rotor blades in 68 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 69-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with vertical type moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 71-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine for various energy conservation cycles of power generation with one type turbine with 72-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating material + Reduce energy by using one kind of turbine with 73 types of vertical all blade gravity turbines aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Accelerate power generation with 74 types of vertical rotor blade gravity turbine aiming at increased power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase power generation by using one type of turbine with 75-stage vertical rotor blade gravity turbines Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 76-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 77 stages that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 78 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 79-type full-blade gravity turbine in 79 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 81 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 82 types of vertical all blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 83 stages of gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one type turbine with 84 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 85 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with all rotor blade gravity turbines installed in 86 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 87 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 88 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with 89 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 90 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with 91-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine with various energy conservation cycles for power generation with a single turbine with 92-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 93 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 94-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 95-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles for power generation with a single type of turbine that has a 96-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity This is a combined engine with various energy conservation cycles for power generation with one kind of turbine with 97 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce energy by using one type of turbine with 98-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase power generation by one kind of turbine with 99 stages of vertical turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation by one type turbine with 100-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 101-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + One type of vertical rotor blade gravity turbine with 102 stages that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with vertical all blade gravity turbine in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 105-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 106 type of all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 107 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 109 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 110 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 111 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 113 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 114 blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 115 rotor blades in 115 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine that has 116-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine with 117-type full-rotor blade gravity turbines aimed at the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 118 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119-stage vertical bladed gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with target vertical blade dynamic turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with two types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Reducing energy by using one type of turbine with 3 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type of turbine with 4 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 5 types of vertical rotor blade gravity turbines aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type of turbine with 6-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of 7-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical all blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 11 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one type turbine with 12 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 13 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 14 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 15 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 16 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 17 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 19 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine with 21 type full blade gravity turbines in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with one type of turbine that has 22 types of vertical blade dynamic gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 23 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 26 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 27 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one type turbine with 28 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase the power generation amount With one type turbine with 29 stages of vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce power generation with a single-type turbine equipped with a 30-stage vertical all-blade gravity turbine aiming at increased power generation by using heavy substances in the vacuum direction for rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 31-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 32 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 33 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical type all-blade gravity turbine in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has 36 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 37 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 38 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 41 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 42 vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 43 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 46-type full blade gravity turbines in 46 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine with 47 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 48 rotor turbines in 48 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 49 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 50-stage vertical blade dynamic turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 51 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 52 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + Friction reduction by coating and mixing of lubricant material + Specific critical substances aiming to increase the amount of power generation accelerated in the vacuum direction. Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by using one type of turbine with 54 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce power generation with a single-stage turbine with 55-stage vertical rotor blade gravity turbines aiming at increased power generation by using heavy substances in the vacuum-accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 56-stage vertical rotor blade gravity turbine aiming to increase power generation amount by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 57-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with a single turbine with 58 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 59 vertical turbine blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 60-stage vertical bladed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 61 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 62 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 63 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 64 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 65 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 66 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 67 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 68 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 69 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 70 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 71 type full-blade gravity turbines in 71 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine that has 72 types of vertical rotor blade gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with a single turbine with 73 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine for various energy conservation cycle of power generation with one kind of turbine with vertical type moving blade gravity turbine in 74 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 75-stage vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 76 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 77 stages of vertical all blade gravity turbine aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + Friction is reduced by coating and mixing of lubrication materials + Specific critical substances aiming at increasing the amount of accelerated power generation in the vacuum direction. Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by one kind of turbine with 79 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type of turbine with 80-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in the accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type turbine with 81-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 82-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all-blade gravity turbines installed in 83 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 84 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with 85-type vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type turbine that has 86 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one type turbine with 87-type vertical blade dynamic gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 88 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 89 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 90 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 91 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine with various energy storage cycles for power generation with one type turbine with 92-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 93 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 94 blades of all rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 95 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances This is a combined energy storage cycle engine for generating electricity with one type of turbine equipped with a 96-stage full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single-type turbine that has 97-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 98 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 99-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 100 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 101-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 102-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Along with the use of preserving + Reduced friction by coating and mixing of lubricious materials + Various types of energy generated by one type of turbine with 103-stage vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious materials + Power generation with one type of turbine with 104-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase the amount of power generation with a single-type turbine with 105-stage vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate power with one type of turbine with 106-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 107 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 109-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 110-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 111-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 113 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 114 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 115 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with all rotor blade gravity turbines in 116 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one kind of turbine with 117-type all-blade gravity turbines aimed at 117 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 118 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119 stages of all rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 120 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with all-type rotor blade gravity turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type of turbine that has two types of vertical rotor blade gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with three stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 4 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 5 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy conservation cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 6 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 7 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 8 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 9 blade rotor gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 10 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine with all blade gravity turbines in 11 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine that has 12 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 13 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 14 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 15 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 16 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 17 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 18 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 19 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 20 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 21 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with gravity turbine in 22 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one type of turbine with 23 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 24 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 25 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 26 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 27 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 28 blade gravity turbines in 28 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction This is a combined engine with various energy storage cycles for power generation with one kind of turbine with 29 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 30 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 31 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 32 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 33 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 rotor blades in 35 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 36 rotor blades in 36 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine with all rotor blades in 37 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) This is an engine that combines various energy conservation cycles of power generation with one type turbine that has 38 types of vertical blade gravity turbines to aim at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 39 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 40-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 41 types of vertical blade dynamic turbines aimed at 41 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 42 vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by covering and mixing with a lubricious material + 43 stages of vertical rotor blade gravity turbines aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + 44 stages of vertical rotor blade gravity turbine aiming at the same amount of water and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and used together with the impact reducing means (2G) + friction reduction by covering and mixing with lubrication material + 45 stages of vertical rotor blade gravity turbine aiming at the same maximum amount of water generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 46 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and used together with the impact reducing means (2G) + friction reduction by covering and mixing with lubrication material + 47 stages of vertical rotor blade gravity turbine aiming at the same amount of water and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances This is an engine that combines various energy conservation cycles of power generation with one kind of turbine with 48-stage vertical rotor blade gravity turbines aiming to increase the amount of power generation accelerated in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Combined engine of various energy conservation cycles for power generation with one kind of turbine with 49 types of vertical rotor blade gravity turbines that aim to increase power generation by accelerating in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Various energy storage cycle coalescence engine of power generation with one type turbine with 50-stage vertical all blade gravity turbine aiming at increasing power generation as directional acceleration rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine of power generation with one kind turbine with 51 vertical turbines that are aimed at increasing power generation as accelerated rolling contact in vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Impact heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 52 types of vertical rotor blade gravity turbines that accelerate with reduction means (2G) and aim to increase power generation amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 53 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 54-stage vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 55-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycle of power generation with one type turbine with 56 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 57-type vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various types of energy generated by one kind of turbine with 58 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type of turbine with 59 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation by one type of turbine with 60-stage vertical all-blade gravity turbine aiming at increasing power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type turbine with 61-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated vacuum rolling contact Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 62 stages that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 63 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with 64 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 65-type vertical all blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 66-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 67 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 68 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 69 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 71 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine that has 72 types of saddle type all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 73 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 74 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 75 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with all-type rotor blade gravity turbine in 76 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine with 77 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 78 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 79-type full-blade gravity turbine in 79 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 81 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 82 types of vertical all blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce energy by using one kind of turbine with 83-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type turbine with 84 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one kind of turbine with 85-type vertical all-blade gravity turbine aiming to increase power generation by using heavy substances in accelerated vacuum rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 86-stage vertical all-blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 87 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 88 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 89 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 90-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 91-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 92 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 93 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 94 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 95 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy conservation cycles for power generation with one kind of turbine with 96 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) This is an engine that combines various energy conservation cycles for power generation with one kind of turbine that has a 97-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 98 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 99 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with all blade gravity turbines installed in 100 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 101 type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type turbine equipped with 102-stage vertical all blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with vertical all blade gravity turbine in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 105-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 106 type of all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 107 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one kind of turbine with 108 type of all-blade gravity turbines aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase the power generation amount One type of turbine with 109 stages to generate power Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce the friction with a heavy substance in the accelerated direction of rolling in the vacuum direction and increase the amount of power generated by using a single-type turbine with 110-stage vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 111-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 112 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 113 stages of all rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 114-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 115-type vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine with 116 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 117 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 118 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy conservation cycles for power generation with one kind of turbine with 119 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine that has two types of vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with three blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines arranged in 4 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 5 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances This is an engine that combines various energy storage cycles for power generation with one type of turbine that has 6-stage full-rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one kind of turbine that has seven types of vertical type moving blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical all blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 11 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one type turbine with 12 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various types of energy generated by one type turbine with 13 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by using one type turbine with 14 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type turbine with 15-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in the vacuum accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type turbine with 16-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 17-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reducing means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 19-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind turbine with vertical type moving blade gravity turbine in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 21 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 22 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 23 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 24 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 25 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 26 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 27 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 28 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 29 rotor blades in 29 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 30 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine with 31-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single turbine with 32 types of vertical rotor blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 33 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical type all-blade gravity turbine in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has 36 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 37 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one kind of turbine with 38-stage vertical rotor blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type turbine with 39-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type of turbine with 40-stage vertical all-blade gravity turbine aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 41-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 42-stage vertical all blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 43 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 46 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one type turbine with 47 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 48 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 49 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 50 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 51 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 52 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 53 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 54 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increasing power generation by accelerating rolling contact Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 55 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with 56 type full blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined energy storage cycle engine for generating electricity with a single type turbine with 57-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with a single turbine with 58 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 59 vertical turbine blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 60-stage vertical bladed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 61 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 62 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one kind of turbine with 63-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Power generation with a single-type turbine with 64 types of vertical rotor blade gravity turbines aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 65-stage vertical rotor blade gravity turbines aiming at increased power generation by using heavy substances in the vacuum direction and rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 66-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 67-stage vertical all-blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 68 rotor blades in 68 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 69-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with vertical type moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 71-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine for various energy conservation cycles of power generation with one type turbine with 72-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 73 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 74 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with moving blade gravity turbine in 75 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 76 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 77 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine with 78 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with a single turbine with 79 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy conservation cycles for power generation with one type turbine with 81-type full rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles for power generation with one type turbine with 82-stage vertical all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all-blade gravity turbines installed in 83 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 84 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with 85-type vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type turbine that has 86 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one type turbine with 87-type vertical blade dynamic gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one type turbine with 88-stage vertical all blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Accelerate power generation with a single-type turbine equipped with 89-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 90-stage vertical all-blade gravity turbines aiming at increased power generation by using heavy substances in a vacuum-accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Generate electricity with one type of turbine with 91-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 92 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 93 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 94-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 95-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles for power generation with a single type of turbine that has a 96-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity This is a combined engine with various energy conservation cycles for power generation with one kind of turbine with 97 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 98 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 99 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 100 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 101 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 102 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type that accelerates heavier substances in the vacuum direction and aims to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines arranged in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 105 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with 106 type full blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type turbine with 107-stage vertical all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 109-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 110-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 111-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one type of turbine with 113-stage vertical all blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Accelerate power generation with 114 types of all-type turbine blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase the amount of power generation with a single-type turbine with 115 stages of vertical rotor blade gravity turbines Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 116-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 117 stages that accelerates heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 118 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119-stage vertical bladed gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with target vertical blade dynamic turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with two types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with three stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 4 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 5 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy conservation cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 6 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 7 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 8 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all-blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine equipped with 11-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles for power generation with one type of turbine that has 12 types of vertical rotor blade gravity turbines aiming at the power. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) used for ascending storage + friction reduction by coating and mixing of lubrication material + specific critical substances aiming to increase the amount of accelerated power generation in the vacuum direction. Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) + ascending storage use + friction reduction by coating and mixing of lubrication material + one kind of turbine with 14-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction In the various energy conservation cycle coalescence engine of power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) ascending storage use + friction reduction by coating and mixing of lubrication material + one type turbine with 15-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in accelerated direction in rolling contact with vacuum In the various energy conservation cycle coalescence engine of power generation. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) is used for ascending storage + friction reduction by coating and mixing of lubrication material + one type of vertical rotor blade gravity turbine with 16 stages, aiming to increase power generation by using heavier substances in a vacuum accelerated rolling contact Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) is used for ascending storage + Friction is reduced by coating and mixing of lubricating materials + 17-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy conservation cycles for power generation with one kind of turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 19 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine with 21 type full blade gravity turbines in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with one type of turbine that has 22 types of vertical blade dynamic gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 23 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 26-stage full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with one kind of turbine with 27 types of vertical rotor blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 28 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation This is a combined engine with various energy storage cycles for power generation with one kind of turbine with 29 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 30 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 31 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 32 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 33 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 34 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 36 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 37 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 38 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 41 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 42 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 43 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 44 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 45 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 46 bladed turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 47 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 48 rotor turbines in 48 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 49 rotor turbines in 49 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 50 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 51 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 52 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 53 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 54 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine with various energy conservation cycles for power generation with one type turbine with 55 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycle of power generation with one type turbine with 56 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 57-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + 58 stages of vertical rotor blade gravity turbines aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 59 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by covering and mixing with lubricious material + 60 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubrication material + 61 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 62 stages of vertical rotor blade gravity turbines aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances Combined engine of various energy conservation cycle of power generation with one kind turbine with 63 vertical stage rotor blade gravity turbines aiming at increasing the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine of power generation with one kind of turbine with 64 types of vertical rotor blade gravity turbine aiming at increasing power generation by accelerating in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Combined engine for various energy conservation cycles of power generation with one kind of turbine with 65-stage vertical moving blade gravity turbine aiming at increasing power generation as directional acceleration rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine of power generation with one kind turbine which has 66 types of vertical type moving blade gravity turbine aiming at increasing power generation amount as a rolling acceleration contact in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Impact heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine with 67-stage vertical all blade gravity turbine that accelerates with reduction means (2G) and aims to increase power generation amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 68 rotor blades in 68 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 69-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with vertical type moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 71-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine for various energy conservation cycles of power generation with one type turbine with 72-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy storage cycles for power generation with one kind of turbine with 73-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy conservation cycles for power generation with one kind of turbine with 74 types of vertical rotor blade gravity turbines aiming to increase power generation by accelerating heavier substances in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy conservation cycles for power generation with one kind of turbine with 75-stage vertical rotor blade gravity turbine aiming to increase power generation amount by making heavy substances in the vacuum accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy conservation cycles for power generation with one type turbine with 76-stage full-rotor blade gravity turbine aiming to increase power generation amount by using heavier substances in accelerated contact in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output equipment method to make all turbine blades + power increasing sphere (2E) small diameter + Accelerate with small diameter + Lubricant coating and mixing reduce friction + Combined engine of various energy conservation cycles for power generation with one type turbine with 77 types of vertical moving blade gravity turbines aiming to increase power generation by accelerating heavy substances together with impact reduction means (2G). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the specific critical material vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Friction reduction by coating and mixing of lubricious material + specific energy-saving energy combined cycle engine for power generation with one type turbine with 78-stage vertical rotor blade gravity turbine aiming to increase the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the specific critical material vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Friction reduction by coating and mixing of lubricating materials + Combined engine of various energy conservation cycles for power generation with one kind of turbine with 79-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction . タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the specific critical material vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Friction reduction by coating and mixing of lubricating materials + Combined engine of various energy storage cycles for power generation with one type turbine with 80-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in vacuum accelerated rolling contact . タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the specific critical material vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Friction reduction by covering and mixing with lubricious material + Combined various energy conservation cycle of power generation with one type turbine with 81-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction organ. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the specific critical material vertically downward by providing multiple stages of specific critical material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Friction reduction by coating and mixing of lubricious material + Energy of power generation by one type turbine with 82 types of vertical moving blade gravity turbines aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 83 stages of gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one type turbine with 84 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 85 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with all rotor blade gravity turbines installed in 86 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 87 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 88 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with 89 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 90 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with 91-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine with various energy conservation cycles for power generation with a single turbine with 92-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 93 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 94-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 95-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles for power generation with a single type of turbine that has a 96-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity This is a combined engine with various energy conservation cycles for power generation with one kind of turbine with 97 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce energy by using one type of turbine with 98-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase power generation by one kind of turbine with 99 stages of vertical turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation by one type turbine with 100-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 101-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + One type of vertical rotor blade gravity turbine with 102 stages that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with vertical all blade gravity turbine in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 105-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 106 type of all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 107 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 109 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 110 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 111 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 113 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 114 blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 115 rotor blades in 115 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine that has 116-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine with 117-type full-rotor blade gravity turbines aimed at the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 118 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119-stage vertical bladed gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with target vertical blade dynamic turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with two types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Reducing energy by using one type of turbine with 3 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type of turbine with 4 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 5 types of vertical rotor blade gravity turbines aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type of turbine with 6-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of 7-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical all blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 11 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one type turbine with 12 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 13 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 14 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 15 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 16 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 17 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 19 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine with 21 type full blade gravity turbines in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with one type of turbine that has 22 types of vertical blade dynamic gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 23 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 26 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 27 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one type turbine with 28 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase the power generation amount With one type turbine with 29 stages of vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce power generation with a single-type turbine equipped with a 30-stage vertical all-blade gravity turbine aiming at increased power generation by using heavy substances in the vacuum direction for rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 31-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 32 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 33 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical type all-blade gravity turbine in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has 36 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 37 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 38 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 41 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 42 vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 43 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 46-type full blade gravity turbines in 46 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine with 47 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 48 rotor turbines in 48 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 49 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 50-stage vertical blade dynamic turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 51 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 52 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + Friction reduction by coating and mixing of lubricant material + Specific critical substances aiming to increase the amount of power generation accelerated in the vacuum direction. Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by using one type of turbine with 54 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce power generation with a single-stage turbine with 55-stage vertical rotor blade gravity turbines aiming at increased power generation by using heavy substances in the vacuum-accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 56-stage vertical rotor blade gravity turbine aiming to increase power generation amount by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 57-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with a single turbine with 58 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 59 vertical turbine blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 60-stage vertical bladed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 61 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 62 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 63 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 64 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 65 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 66 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 67 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 68 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 69 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 70 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 71 type full-blade gravity turbines in 71 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine that has 72 types of vertical rotor blade gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with a single turbine with 73 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine for various energy conservation cycle of power generation with one kind of turbine with vertical type moving blade gravity turbine in 74 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 75-stage vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 76 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 77 stages of vertical all blade gravity turbine aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + Friction is reduced by coating and mixing of lubrication materials + Specific critical substances aiming at increasing the amount of accelerated power generation in the vacuum direction. Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by one kind of turbine with 79 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type of turbine with 80-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in the accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type turbine with 81-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 82-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all-blade gravity turbines installed in 83 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 84 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with 85-type vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type turbine that has 86 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one type turbine with 87-type vertical blade dynamic gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 88 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 89 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 90 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 91 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine with various energy storage cycles for power generation with one type turbine with 92-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 93 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 94 blades of all rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 95 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances This is a combined energy storage cycle engine for generating electricity with one type of turbine equipped with a 96-stage full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single-type turbine that has 97-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 98 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 99-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 100 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 101-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 102-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Along with the use of preserving + Reduced friction by coating and mixing of lubricious materials + Various types of energy generated by one type of turbine with 103-stage vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious materials + Power generation with one type of turbine with 104-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase the amount of power generation with a single-type turbine with 105-stage vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate power with one type of turbine with 106-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 107 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 109-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 110-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 111-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 113 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 114 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 115 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with all rotor blade gravity turbines in 116 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one kind of turbine with 117-type all-blade gravity turbines aimed at 117 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 118 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119 stages of all rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 120 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with all-type rotor blade gravity turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type of turbine that has two types of vertical rotor blade gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with all rotor blade gravity turbines arranged in 3 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 4 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with vertical all blade gravity turbine in 5 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 6-stage vertical all blade gravity turbine targeted. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one kind of turbine with 7 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Reduce energy by using one type turbine with 8 types of vertical all-blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Friction reduction by coating and mixing with lubricious material + Power generation by one kind of turbine with 9-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction with a heavy material in the accelerated direction of rolling in the vacuum direction and increase the amount of power generated by using a single-type turbine with 10 types of vertical rotor blade gravity turbines in 10 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 11-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 12-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 13 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 14 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 15 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 16 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one type turbine with 17 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 18 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 19 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 20 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 22 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 23 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 26-stage full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine with 27 types of vertical rotor blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 28 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation This is a combined engine with various energy storage cycles for power generation with one kind of turbine with 29 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 30 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 31 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 32 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 33 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 34 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 36 rotor blades in 36 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 37-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 38 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 41 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 42 vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 43 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 44 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 46 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 47 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 48 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 49 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 50 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 51 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy conservation cycles for power generation with one kind of turbine with 52 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 53 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 54 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 55 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 56 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 57 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 58 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 59 rotor blades in 59 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 60 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 61 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 62 rotor turbines in 62 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 63-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 64 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 65-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 66-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 67 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + 68 stages of vertical rotor blade gravity turbine aiming at the same water volume and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 69 stages of a vertical rotor blade gravity turbine aiming at the same amount of water and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + 70 stages of all-type rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 71 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 72 stages of vertical rotor blade gravity turbines aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Various energy conservation cycle coalescence engine of power generation with one kind of turbine with 73 types of vertical type moving blade gravity turbine aiming at increasing the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Various energy conservation cycle coalescence engine of power generation with one kind turbine with 74 types of vertical type moving blade gravity turbine aiming at increasing power generation by accelerating heavier materials in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Combined engine with various energy storage cycles for power generation with one kind of turbine with 75-stage vertical rotor blade gravity turbine aiming at increasing power generation by using heavy substances in vacuum direction and rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Combined engine of various energy storage cycles for power generation with one type turbine with 76-stage vertical rotor blade gravity turbine aiming to increase power generation amount by using heavier material in vacuum direction accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Combined engine of various energy storage cycles for power generation with one kind of turbine with 77 types of vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavy substances together with impact reduction means (2G). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 78 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 79-type full-blade gravity turbine in 79 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 81 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 82 types of vertical all blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce energy by using one kind of turbine with 83-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type turbine with 84 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one kind of turbine with 85-type vertical all-blade gravity turbine aiming to increase power generation by using heavy substances in accelerated vacuum rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 86-stage vertical all-blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 87 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 88 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 89 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 90-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 91-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 92 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 93 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 94 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 95 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy conservation cycles for power generation with one kind of turbine with 96 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) This is an engine that combines various energy conservation cycles for power generation with one kind of turbine that has a 97-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce energy by using one type of turbine with 98-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase power generation by one kind of turbine with 99 stages of vertical turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation by one type turbine with 100-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 101-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + One type of vertical rotor blade gravity turbine with 102 stages that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with vertical all blade gravity turbine in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 105-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 106 type of all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 107 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 109 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 110 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 111 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 113 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 114 blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 115 rotor blades in 115 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine that has 116-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine with 117-type full-rotor blade gravity turbines aimed at the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 118 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119-stage vertical bladed gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with target vertical blade dynamic turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with two types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Reducing energy by using one type of turbine with 3 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type of turbine with 4 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 5 types of vertical rotor blade gravity turbines aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type of turbine with 6-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of 7-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical all blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 11 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one type turbine with 12 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 13 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 14 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 15 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 16 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 17 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 19 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine with 21 type full blade gravity turbines in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with one type of turbine that has 22 types of vertical blade dynamic gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 23 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 26 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 27 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one type turbine with 28 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase the power generation amount With one type turbine with 29 stages of vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce power generation with a single-type turbine equipped with a 30-stage vertical all-blade gravity turbine aiming at increased power generation by using heavy substances in the vacuum direction for rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 31-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 32 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 33 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical type all-blade gravity turbine in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has 36 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 37 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 38 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 41 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 42 vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 43 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 46-type full blade gravity turbines in 46 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine with 47 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 48 rotor turbines in 48 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 49 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 50-stage vertical blade dynamic turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 51 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 52 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + Friction reduction by coating and mixing of lubricant material + Specific critical substances aiming to increase the amount of power generation accelerated in the vacuum direction. Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by using one type of turbine with 54 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce power generation with a single-stage turbine with 55-stage vertical rotor blade gravity turbines aiming at increased power generation by using heavy substances in the vacuum-accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 56-stage vertical rotor blade gravity turbine aiming to increase power generation amount by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 57-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with a single turbine with 58 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 59 vertical turbine blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 60-stage vertical bladed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 61 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 62 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 63 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 64 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 65 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 66 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 67 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 68 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 69 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 70 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 71 type full-blade gravity turbines in 71 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine that has 72 types of vertical rotor blade gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with a single turbine with 73 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine for various energy conservation cycle of power generation with one kind of turbine with vertical type moving blade gravity turbine in 74 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 75-stage vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 76 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 77 stages of vertical all blade gravity turbine aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + Friction is reduced by coating and mixing of lubrication materials + Specific critical substances aiming at increasing the amount of accelerated power generation in the vacuum direction. Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by one kind of turbine with 79 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type of turbine with 80-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in the accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type turbine with 81-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 82-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all-blade gravity turbines installed in 83 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 84 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with 85-type vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type turbine that has 86 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one type turbine with 87-type vertical blade dynamic gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 88 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 89 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 90 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 91 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine with various energy storage cycles for power generation with one type turbine with 92-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 93 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 94 blades of all rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 95 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances This is a combined energy storage cycle engine for generating electricity with one type of turbine equipped with a 96-stage full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single-type turbine that has 97-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 98 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 99-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 100 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 101-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 102-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Along with the use of preserving + Reduced friction by coating and mixing of lubricious materials + Various types of energy generated by one type of turbine with 103-stage vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious materials + Power generation with one type of turbine with 104-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase the amount of power generation with a single-type turbine with 105-stage vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate power with one type of turbine with 106-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 107 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 109-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 110-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 111-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 113 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 114 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 115 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with all rotor blade gravity turbines in 116 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one kind of turbine with 117-type all-blade gravity turbines aimed at 117 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 118 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119 stages of all rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 120 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with all-type rotor blade gravity turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type of turbine that has two types of vertical rotor blade gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with all rotor blade gravity turbines arranged in 3 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 4 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with vertical all blade gravity turbine in 5 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 6-stage vertical all blade gravity turbine targeted. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one kind of turbine with 7 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Reduce energy by using one type turbine with 8 types of vertical all-blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Friction reduction by coating and mixing with lubricious material + Power generation by one kind of turbine with 9-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction with a heavy material in the accelerated direction of rolling in the vacuum direction and increase the amount of power generated by using a single-type turbine with 10 types of vertical rotor blade gravity turbines in 10 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 11-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 12-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 13 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 14 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 15 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 16 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one type turbine with 17 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 18 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 19 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 20 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 22 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 23 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 26-stage full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine with 27 types of vertical rotor blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 28 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation This is a combined engine with various energy storage cycles for power generation with one kind of turbine with 29 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 30 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 31 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine that has 32 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with gravity turbines in 33 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 34 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 36 rotor blades in 36 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 37-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 38 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 41 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 42 vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 43 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 44 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 46 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 47 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 48 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 49 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 50 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 51 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy conservation cycles for power generation with one kind of turbine with 52 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 53 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 54 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 55 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 56 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 57 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 58 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 59 rotor blades in 59 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 60 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 61 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 62 rotor turbines in 62 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 63-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 64 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 65-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 66-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 67 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + 68 stages of vertical rotor blade gravity turbine aiming at the same water volume and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 69 stages of a vertical rotor blade gravity turbine aiming at the same amount of water and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + 70 stages of all-type rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 71 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 72 stages of vertical rotor blade gravity turbines aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine with 73 vertical all blade gravity turbines aiming to increase the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine of power generation with one kind turbine with 74 types of vertical moving blade gravity turbine aiming at increasing power generation by accelerating in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Various energy conservation cycle coalescence engine of power generation with one type turbine with 75-stage vertical rotor blade gravity turbine aiming at increasing power generation as directional acceleration rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 76-stage vertical rotor blade gravity turbine aiming at increasing power generation as vacuum accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase drop + Increase ball increase device (2F) Use small diameter output increase sphere (2E) with impact reduction means (2G) to save and save + Reduce friction with lubrication material coating and mixing + Impact heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 77 types of vertical rotor blade gravity turbines that accelerate with reduction means (2G) and aim to increase power generation amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 78 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 79-type full-blade gravity turbine in 79 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 81 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 82 types of vertical all blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce energy by using one kind of turbine with 83-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type turbine with 84 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one kind of turbine with 85-type vertical all-blade gravity turbine aiming to increase power generation by using heavy substances in accelerated vacuum rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 86-stage vertical all-blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 87 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 88 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 89 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 90-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 91-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 92 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 93 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 94 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 95 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy conservation cycles for power generation with one kind of turbine with 96 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) This is an engine that combines various energy conservation cycles for power generation with one kind of turbine that has a 97-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 98 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 99 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with all blade gravity turbines installed in 100 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 101 type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type turbine equipped with 102-stage vertical all blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with vertical all blade gravity turbine in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 105-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 106 type of all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 107 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one kind of turbine with 108 type of all-blade gravity turbines aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase the power generation amount One type of turbine with 109 stages to generate power Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce the friction with a heavy substance in the accelerated direction of rolling in the vacuum direction and increase the amount of power generated by using a single-type turbine with 110-stage vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 111-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 112 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 113 stages of all rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 114-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 115-type vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine with 116 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 117 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 118 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy conservation cycles for power generation with one kind of turbine with 119 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine that has two types of vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with three blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines arranged in 4 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 5 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances This is an engine that combines various energy storage cycles for power generation with one type of turbine that has 6-stage full-rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one kind of turbine that has seven types of vertical type moving blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical all blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 11 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one type turbine with 12 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various types of energy generated by one type turbine with 13 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by using one type turbine with 14 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type turbine with 15-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in the vacuum accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type turbine with 16-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 17-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reducing means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 19-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind turbine with vertical type moving blade gravity turbine in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 21 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 22 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 23 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 24 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 25 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 26 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 27 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 28 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 29 rotor blades in 29 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 30 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine with 31-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single turbine with 32 types of vertical rotor blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 33 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical type all-blade gravity turbine in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has 36 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 37 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one kind of turbine with 38-stage vertical rotor blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type turbine with 39-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type of turbine with 40-stage vertical all-blade gravity turbine aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 41-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 42-stage vertical all blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 43 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 46 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one type turbine with 47 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 48 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 49 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 50 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 51 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 52 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 53 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 54 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increasing power generation by accelerating rolling contact Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 55 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with 56 type full blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined energy storage cycle engine for generating electricity with a single type turbine with 57-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with a single turbine with 58 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 59 vertical turbine blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 60-stage vertical bladed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 61 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 62 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one kind of turbine with 63-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Power generation with a single-type turbine with 64 types of vertical rotor blade gravity turbines aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 65-stage vertical rotor blade gravity turbines aiming at increased power generation by using heavy substances in the vacuum direction and rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 66-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 67-stage vertical all-blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 68 rotor blades in 68 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 69-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with vertical type moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 71-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine for various energy conservation cycles of power generation with one type turbine with 72-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 73 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 74 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with moving blade gravity turbine in 75 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 76 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 77 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine with 78 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with a single turbine with 79 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy conservation cycles for power generation with one type turbine with 81-type full rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles for power generation with one type turbine with 82-stage vertical all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all-blade gravity turbines installed in 83 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 84 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with 85-type vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type turbine that has 86 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one type turbine with 87-type vertical blade dynamic gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one type turbine with 88-stage vertical all blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Accelerate power generation with a single-type turbine equipped with 89-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 90-stage vertical all-blade gravity turbines aiming at increased power generation by using heavy substances in a vacuum-accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Generate electricity with one type of turbine with 91-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 92 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 93 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 94-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 95-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles for power generation with a single type of turbine that has a 96-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity This is a combined engine with various energy conservation cycles for power generation with one kind of turbine with 97 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 98 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 99 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 100 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 101 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 102 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type that accelerates heavier substances in the vacuum direction and aims to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines arranged in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 105 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with 106 type full blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type turbine with 107-stage vertical all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 109-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 110-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 111-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one type of turbine with 113-stage vertical all blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Accelerate power generation with 114 types of all-type turbine blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase the amount of power generation with a single-type turbine with 115 stages of vertical rotor blade gravity turbines Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 116-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 117 stages that accelerates heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 118 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119-stage vertical bladed gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with target vertical blade dynamic turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with two types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with three stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 4 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 5 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy conservation cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 6 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 7 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 8 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all-blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine equipped with 11-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles for power generation with one type of turbine that has 12 types of vertical rotor blade gravity turbines aiming at the power. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 13 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 14 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 15 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 16 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 17 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce energy by using one kind of turbine with 18 types of all-blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + Accelerate power generation with a single-type turbine with 19-stage vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one kind of turbine with 20-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 21-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 22 stages that accelerates heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 23 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 26 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 27 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 28 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation This is a combined engine with various energy storage cycles for power generation with one kind of turbine with 29 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 30 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 31 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 32 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 33 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 rotor blades in 35 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine with 36-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine with 37-stage vertical all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 38 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 41 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 42 vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 43 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 44 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 45 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 46 rotor turbines in 46 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 47 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 48 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 49 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 50 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 51 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 52 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 53 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 54 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 55 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 56 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 57 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 58 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 59 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one type of turbine with 60 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 61 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one type turbine with 62 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 63 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 64 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 65 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 66 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 67 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 68 rotor blades in 68 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 69 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 70 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 71 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 72 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 73-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 74 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) This is an engine that combines various energy conservation cycles for power generation with one type of turbine that has 75 types of vertical all blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 76 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 77 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + 78 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 79 stages of vertical rotor blade gravity turbine aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + 80 stages of vertical rotor blade gravity turbines aiming at the same maximum water generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material +81 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reducing friction by covering and mixing lubricating materials + 82 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances Combined engine of various energy storage cycles for power generation with one kind of turbine with 83 types of vertical rotor blade gravity turbines aiming to increase the amount of power generation accelerated in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine of power generation with one type turbine with 84 vertical stage moving blade gravity turbines aiming to increase power generation by accelerating in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Various energy conservation cycle coalescence engine of power generation with one type turbine with 85-stage vertical rotor blade gravity turbine aiming at increasing power generation as directional acceleration rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine with 86 vertical stage rotor blade gravity turbines aiming to increase power generation as vacuum accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Impact heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 87 types of vertical type moving blade gravity turbine that accelerates with reduction means (2G) and aims to increase power generation amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 88 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 89 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 90-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 91-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 92 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce energy by using one type of turbine with 93-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction to generate electricity with a single turbine with 94 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase the amount of power generation with a single-type turbine equipped with 95-stage vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type of turbine with 96-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 97-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 98 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 99-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 100 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 101-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 102-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 103 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 104 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 105 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 106 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 107-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 108 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 109 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small-diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricating material + Heavy material is a vertical type aiming at increasing power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 110 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine equipped with 111-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles for power generation with one type of turbine that has 112-stage vertical all blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 113 stages of all rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 114-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 115-type vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine with 116 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one kind of turbine with 117 stages of vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Along with the use of preserving + Reduced friction by coating and mixing of lubricating materials + Specific critical substances aiming at increasing the amount of accelerated power generation in the vacuum direction. Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Accelerate generation of power with a single-type turbine with 119 stages of a vertical rotor blade gravity turbine that accelerates heavier substances in the vacuum direction to increase power generation Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation by one kind of turbine with 120-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and preservation + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with a single-stage full-rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with two stages that accelerate heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with all rotor blade gravity turbines arranged in 3 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 4 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with vertical all blade gravity turbine in 5 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 6 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine that has 7 types of vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 8 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 9 blade rotor gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 10 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine with all blade gravity turbines in 11 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine that has 12 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 13 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 14 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 15 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine with 16-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single turbine with 17 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 19-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind turbine with vertical type moving blade gravity turbine in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 21 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 22 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one kind of turbine with 23 types of vertical all-blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Increase power generation by accelerating heavier substances in the vacuum direction to generate electricity with one type of turbine with 24 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 25-stage vertical all-blade gravity turbines aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type of turbine with 26-stage vertical all-blade gravity turbines aiming to increase power generation by using heavier substances in an accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 27-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 28 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 29 types of vertical blade dynamic gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 30 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 31 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 32 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 33 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 34 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 36 rotor blades in 36 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 37-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 38 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 39 rotor blades in 39 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 rotor stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 41 type full blade gravity turbines in 41 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine with 42-stage vertical all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 43 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 46 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one type turbine with 47 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce energy by using one kind of turbine with 48-stage vertical all-blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction to generate electricity with one kind of turbine with 49 stages of vertical rotor blade gravity turbines Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce power generation with a single-type turbine equipped with 50-stage vertical rotor blade gravity turbines aiming at increased power generation by using heavy substances in the vacuum-accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 51-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated vacuum rolling contact Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 52 stages that accelerates heavy substances with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 53 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 54-stage vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 55-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycle of power generation with one type turbine with 56 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 57-type vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 58 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 59 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 60 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 61 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine that has 62 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 63 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 64 rotor turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 65 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine with 66 type full blade gravity turbines arranged in 66 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one kind of turbine with 67-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 68 rotor blades in 68 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 69-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one type turbine with vertical type moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 71-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine for various energy conservation cycles of power generation with one type turbine with 72-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating material + Reduce energy by using one kind of turbine with 73 types of vertical all blade gravity turbines aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Accelerate power generation with 74 types of vertical rotor blade gravity turbine aiming at increased power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase power generation by using one type of turbine with 75-stage vertical rotor blade gravity turbines Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 76-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 77 stages that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 78 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 79-type full-blade gravity turbine in 79 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 81 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 82 types of vertical all blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 83 stages of gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one type turbine with 84 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 85 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with all rotor blade gravity turbines installed in 86 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 87 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 88 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with 89 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 90 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with 91-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine with various energy conservation cycles for power generation with a single turbine with 92-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 93 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 94-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 95-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles for power generation with a single type of turbine that has a 96-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity This is a combined engine with various energy conservation cycles for power generation with one kind of turbine with 97 types of vertical rotor blade gravity turbines aiming to increase the quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce energy by using one type of turbine with 98-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase power generation by one kind of turbine with 99 stages of vertical turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation by one type turbine with 100-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 101-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + One type of vertical rotor blade gravity turbine with 102 stages that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with vertical all blade gravity turbine in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 105-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 106 type of all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 107 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 109 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 110 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 111 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 113 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 114 blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 115 rotor blades in 115 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine that has 116-type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine with 117-type full-rotor blade gravity turbines aimed at the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 118 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119-stage vertical bladed gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with target vertical blade dynamic turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with two types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Reducing energy by using one type of turbine with 3 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type of turbine with 4 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce power generation with a single-type turbine equipped with 5 types of vertical rotor blade gravity turbines aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate electricity with one type of turbine with 6-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of 7-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical all blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 11 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one type turbine with 12 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 13 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 14 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 15 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 16 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 17 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 19 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine with 21 type full blade gravity turbines in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with one type of turbine that has 22 types of vertical blade dynamic gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 23 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 26 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 27 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one type turbine with 28 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase the power generation amount With one type turbine with 29 stages of vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Reduce power generation with a single-type turbine equipped with a 30-stage vertical all-blade gravity turbine aiming at increased power generation by using heavy substances in the vacuum direction for rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 31-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 32 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 33 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical type all-blade gravity turbine in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has 36 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 37 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 38 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 40 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 41 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one type turbine with 42 vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 43 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 46-type full blade gravity turbines in 46 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine with 47 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 48 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 49 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 50 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 51 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 52 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 53 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 54 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 55 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 56 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 57-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 58 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 59 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 60 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 61 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine that has 62 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 63 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 64 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 65 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 66 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 67 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 68 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 69 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 71 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 72 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 73 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 74 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with moving blade gravity turbine in 75 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 76 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 77 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 78 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 79 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine with all rotor blades in 81 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 82 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine with various energy storage cycles for power generation with one type turbine with 83 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine that has 84 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) This is an engine that combines various energy conservation cycles for power generation with one type of turbine that has 85 types of vertical all blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) This is an engine that combines various energy conservation cycles of power generation with one type turbine that has 86 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 87 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubrication material + 88 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Using a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + 89 stages of vertical rotor blade gravity turbines aiming at the same amount of water and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increase sphere (2E) is lifted and used together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + 90 stages of vertical rotor blade gravity turbine aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small-diameter output increasing sphere (2E) is lifted and stored together with the impact reduction means (2G) + friction reduction by covering and mixing with a lubricious material + 91 types of vertical rotor blade gravity turbines aiming at the same amount of water and maximum power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ), The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + 92 stages of vertical rotor blade gravity turbine aiming at the same maximum amount of water generation Various energy storage cycle coalescence engine of power generation with one kind of turbine installed in the. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances Combined engine of various energy conservation cycles for power generation with one kind of turbine with 93 types of vertical rotor blade gravity turbines aiming to increase the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Combined engine of various energy conservation cycles for power generation with one type turbine with 94-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Combined engine for various energy conservation cycles of power generation with one type turbine with 95-stage vertical rotor blade gravity turbine aiming at increasing power generation as directional acceleration rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine with 96-stage vertical rotor blade gravity turbine aiming at increasing power generation as an accelerated rolling contact in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Impact heavy substances Various energy conservation cycle coalescence engine of power generation with one type turbine with 97-stage vertical rotor blade gravity turbine that accelerates with reduction means (2G) and aims to increase power generation amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 98 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 99-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 100 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 101-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 102-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Along with the use of preserving + Reduced friction by coating and mixing of lubricious materials + Various types of energy generated by one type of turbine with 103-stage vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious materials + Power generation with one type of turbine with 104-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction by accelerating rolling contact with heavy substances in the vacuum direction and increase the amount of power generation with a single-type turbine with 105-stage vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate power with one type of turbine with 106-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 107 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 108 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 109-type vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 110-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 111-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one type turbine with 112-stage vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 113 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 114 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 115 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with all rotor blade gravity turbines in 116 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one kind of turbine with 117-type all-blade gravity turbines aimed at 117 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 118 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 119 stages of all rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 120 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type of turbine equipped with all-type rotor blade gravity turbine in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type of turbine that has two types of vertical rotor blade gravity turbines aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with all rotor blade gravity turbines arranged in 3 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 4 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with vertical all blade gravity turbine in 5 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 6-stage vertical all blade gravity turbine targeted. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one kind of turbine with 7 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating materials + Reduce energy by using one type turbine with 8 types of vertical all-blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Friction reduction by coating and mixing with lubricious material + Power generation by one kind of turbine with 9-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce the friction with a heavy material in the accelerated direction of rolling in the vacuum direction and increase the amount of power generated by using a single-type turbine with 10 types of vertical rotor blade gravity turbines in 10 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 11-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 12-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 13 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 14 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 15 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 16 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy storage cycles for power generation with one type turbine with 17 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 18 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 19 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 20 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 22 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 23 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 24 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 25 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 26-stage full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single type turbine with 27 types of vertical rotor blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 28 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 29 types of vertical blade dynamic gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical type moving blade gravity turbine in 30 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 31 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 32 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one type turbine with 33-stage vertical rotor blade gravity turbine aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction to increase power generation with one type of turbine with 34 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Generate power with one type of turbine with 35-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type of turbine with 36-stage vertical rotor blade gravity turbine aiming to increase power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricating material + One type of 37-stage vertical rotor blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 38 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 39 types of vertical blade dynamic gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical type moving blade gravity turbine in 40 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 41 types of vertical blade dynamic turbines aimed at 41 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 42 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 43 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 44 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 45 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 46 rotor turbines in 46 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 47 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 48 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with a single turbine with 49 rotor turbines in 49 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines installed in 50 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine with 51 type full-blade gravity turbines in 51 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with one kind of turbine that has a 52-stage vertical all-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines arranged in 53 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 54-stage vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 55-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycle of power generation with one type turbine with 56 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 57-type vertical all blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various types of energy generated by one kind of turbine with 58 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type of turbine with 59 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation by one type of turbine with 60-stage vertical all-blade gravity turbine aiming at increasing power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Generate electricity with one type turbine with 61-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated vacuum rolling contact Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of vertical rotor blade gravity turbine with 62 stages that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 63 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with 64 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 65-type vertical all blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with 66-type vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 67 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 68 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 69 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with 71 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine that has 72 types of saddle type all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 73 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 74 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 75 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with all-type rotor blade gravity turbine in 76 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with one kind of turbine with 77 types of vertical rotor blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 78 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 79-type full-blade gravity turbine in 79 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 81 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 82 types of vertical all blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce energy by using one kind of turbine with 83-stage vertical all blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation with one type turbine with 84 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one kind of turbine with 85-type vertical all-blade gravity turbine aiming to increase power generation by using heavy substances in accelerated vacuum rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 86-stage vertical all-blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 87 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 88 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 89 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine with 90-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 91-stage vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one kind of turbine with 92 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 93 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 94 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 95 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy conservation cycles for power generation with one kind of turbine with 96 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) This is an engine that combines various energy conservation cycles for power generation with one kind of turbine that has a 97-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 98 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 99 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy conservation cycles for power generation with one kind of turbine with all blade gravity turbines installed in 100 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one type turbine equipped with 101 type full blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy storage cycles for power generation with a single type turbine equipped with 102-stage vertical all blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 103 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy conservation cycles for power generation with one type turbine with vertical all blade gravity turbine in 104 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 105-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 106 type of all-blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 107 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Reduce energy by using one kind of turbine with 108 type of all-blade gravity turbines aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Increase the power generation amount by accelerating heavier substances in the vacuum direction and increase the power generation amount One type of turbine with 109 stages to generate power Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Reduce the friction with a heavy substance in the accelerated direction of rolling in the vacuum direction and increase the amount of power generated by using a single-type turbine with 110-stage vertical rotor blade gravity turbine Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 111-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavier substances in accelerated rolling contact with vacuum Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + One type of vertical rotor blade gravity turbine with 112 stages aiming to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine with various energy storage cycles for power generation by turbine タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 113 stages of all rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 114-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 115-type vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine with 116 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 117 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 118 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine with various energy conservation cycles for power generation with one kind of turbine with 119 stages of moving blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 120 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine that has two types of vertical turbine blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with three blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all blade gravity turbines arranged in 4 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 5 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances This is an engine that combines various energy storage cycles for power generation with one type of turbine that has 6-stage full-rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is an engine that combines various energy conservation cycles of power generation with one kind of turbine that has seven types of vertical type moving blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical all blade gravity turbines in 9 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine with vertical all blade gravity turbine in 10 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 11 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy storage cycles for power generation with one type turbine with 12 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various types of energy generated by one type turbine with 13 types of vertical all blade gravity turbines aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + Increase power generation by accelerating heavier substances in the vacuum direction and increase power generation by using one type turbine with 14 stages Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type turbine with 15-stage vertical rotor blade gravity turbine aiming at increased power generation by using heavy substances in the vacuum accelerated rolling contact Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type turbine with 16-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 17-stage vertical all-blade gravity turbine aiming to increase power generation by accelerating heavy substances with impact reducing means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 18 rotor blades. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with 19-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind turbine with vertical type moving blade gravity turbine in 20 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 21 types of vertical blade dynamic turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one kind of turbine with 22 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 23 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 24 moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 25 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 26 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one type turbine with 27 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 28 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 29 rotor blades in 29 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increased power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blade gravity turbines in 30 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type of turbine with 31-stage full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined engine of various energy conservation cycles for power generation with a single turbine with 32 types of vertical rotor blade gravity turbines aiming for. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one type turbine with 33 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with vertical type all-blade gravity turbine in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 35 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction This is an engine that combines various energy conservation cycles of power generation with one type of turbine that has 36 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine of various energy conservation cycles for power generation with one kind of turbine with 37 types of vertical rotor blade gravity turbine aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Various energy of power generation with one kind of turbine with 38-stage vertical rotor blade gravity turbine aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Conservation cycle coalescence organization. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type turbine with 39-stage vertical rotor blade gravity turbine aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Power generation with one type of turbine with 40-stage vertical all-blade gravity turbine aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Generate electricity with one type of turbine with 41-stage vertical all-blade gravity turbine aiming to increase power generation by using heavier substances in accelerated contact in the vacuum direction Various energy conservation cycle coalescing engines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + One type of 42-stage vertical all blade gravity turbine that aims to increase power generation by accelerating heavy substances with impact reduction means (2G) Combined engine of various energy storage cycles for power generation by turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G). + Friction is reduced by covering and mixing with a lubricious material. Combined engine with various energy storage cycles for power generation with one kind of turbine with 43 all-blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one type of turbine with vertical all blade gravity turbine in 44 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 45 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Combined engine of various energy conservation cycles for power generation with one kind of turbine with 46 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Combined engine with various energy conservation cycles for power generation with one type turbine with 47 types of vertical rotor blade gravity turbines aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + reducing friction by coating and mixing with a lubricious material + specific all-purpose material for a vertical blade that aims to increase the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine with 48 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 49 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) With a small diameter output increasing sphere (2E) together with impact reducing means (2G) to save and use + reducing friction by coating and mixing with lubricious material + heavy type all aiming to increase power generation by accelerating rolling contact in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 50 blade turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with lubricious materials + vertical type aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine with various energy storage cycles for power generation with a single turbine with 51 rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy conservation cycles for power generation with one kind of turbine with 52 types of vertical all blade gravity turbines aimed at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reduction means (2G) + Friction is reduced by covering and mixing with a lubricious material + Round-type full motion aiming at increasing the amount of accelerated energy generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one type turbine with 53 blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Small diameter output increasing sphere (2E) is used for ascending and storing together with impact reduction means (2G) + Friction is reduced by covering and mixing with lubricious material + A heavier type aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 54 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) The small diameter output increasing sphere (2E) is lifted and stored together with the impact reducing means (2G) + Friction is reduced by coating and mixing with lubricious material + Heavy material is a vertical type aiming at increasing power generation by accelerating rolling contact Combined engine with various energy storage cycles for power generation with one kind of turbine with all rotor blades in 55 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Aims to increase power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine equipped with 56 type full blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation This is a combined energy storage cycle engine for generating electricity with a single type turbine with 57-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) is used for ascending storage + friction reduction by coating and mixing of lubrication material + vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind turbine provided in 58 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) ascending storage use + friction reduction by covering and mixing with lubricious material + vertical rotor blade gravity equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of turbine with 59 stages of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) ascending storage use + friction reduction by coating and mixing of lubrication material + vertical rotor blade gravity equipped with friction loss reduction means (3) aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine with 60 stages of turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) + ascending storage use + friction reduction by coating and mixing of lubrication material + vertical blades equipped with friction loss reduction means (3) aiming to increase power generation by using heavier substances in the vacuum accelerated rolling contact Various energy storage cycle coalescence engine for power generation with one kind of turbine with 61 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2-25 times specific material gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball lift device (2F) small diameter output increase ball (2E) impact reduction means (2G) is used for ascending storage + friction reduction by covering and mixing with a lubricious material + vertical type equipped with friction loss reduction means (3) for accelerating heavy substances with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one type turbine with 62 rotor turbines in 62 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 63 vertical stage moving blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 64 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 65-stage vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 66 types of vertical rotor blade gravity turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 67 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction A combined energy storage cycle engine for generating electricity with one kind of turbine provided with 68 types of vertical rotor blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious materials + Accelerates heavier substances in the vacuum direction to increase power generation and reduce friction loss Various energy storage cycle coalescing engines aiming at 1000 times the amount of power generation by providing a vertical all blade gravity turbine equipped with means (3) in 69 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reducing means (3) in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 71 types of vertical all blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて水銀を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate mercury vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 72-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 73-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 74 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 75-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 76 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 77 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 78-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 79-stage full-blade gravity turbine with 79 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 80-stage vertical all blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 81 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy conservation cycles for power generation with one kind of turbine provided with 82 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 83 types of vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 84 vertical stage moving blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind turbine provided with vertical type moving blade gravity turbine equipped with means (3) in 85 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 86 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 87 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with a vertical all blade gravity turbine provided with means (3) in 88 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 89 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 90-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 91 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with a vertical all blade gravity turbine provided with means (3) in 92 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with 93 types of vertical type moving blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 94 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 95 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 96 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 97 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 98 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 99 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 100 stages of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 101 vertical stage moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation by one kind turbine provided with a vertical all blade gravity turbine equipped with target friction loss reducing means (3) in 102 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 103 vertical stage moving blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 104 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various types of power generation by one type turbine provided with multi-stage vertical rotor blade gravity turbines equipped with friction loss reduction means (3) provided with 105-stage vertical all blade gravity turbines equipped with reduction means (3) Energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 106 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 107-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 108 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 109 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine provided with 110-stage vertical bladed turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 111-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 112 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + 113 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated power generation in the vacuum Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + friction reduction by covering and mixing with lubricious material + 114 type full-rotor blade gravity turbine equipped with friction loss reduction means (3) for accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 115 A vertical all-blade gravity turbine equipped with friction loss reducing means (3) that aims to increase the amount of power generation by applying a heavy material to the vacuum-accelerated rolling contact and using it as a preservative material. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind of turbine provided in 116 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 117 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reduction means (3) in 118 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 119 stages of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 120 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with aiming friction loss reducing means (3) in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with two types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 3 types of vertical rotor blade gravity turbines provided in 3 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with four types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 5 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 6 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine with 7 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 8 types of vertical rotor blade gravity turbines provided in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 9 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 10 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with 11 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engines for power generation with one kind of turbine provided with 12 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 13 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 14 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 15 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 16 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 17 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubrication material + 18 stages of vertical bladed turbine with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 19 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 20 vertical turbine blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with gravity turbine in 22 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 23 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 24 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 25 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 26 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 27 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 28 types of vertical rotor blade gravity turbines provided in 28 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 29 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 30 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 31 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 32 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 33 vertical rotor blade gravity turbines provided in 33 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 34 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 35 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 36 types of vertical rotor blade gravity turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one kind turbine provided with 37 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 38 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 39 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 40 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 41 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 42 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + 43 stages of vertical bladed turbines equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 44 The vertical bladed turbine is equipped with a friction loss reducing means (3) that aims to increase power generation by accelerating heavier substances in the vacuum direction. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 45) A vertical all-blade gravity turbine equipped with friction loss reducing means (3) that aims to increase the amount of power generation by accelerating rolling contact with heavy substances in the vacuum direction. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in 46 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 47 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 48 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 49 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 50 stages of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind turbine provided with 51 stages of saddle type all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine of power generation with one type turbine provided with 52 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 53 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with 54 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 55 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 56 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 57 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction A combined energy storage cycle engine for generating electricity with one kind of turbine having 58 vertical stages of all-blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 59 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 60 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 61 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 62 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 63 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 64 stages of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 65 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one type turbine provided with 66 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 67 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction to 68 stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating or mixing with lubricious material + 69 vertical bladed turbine with friction loss reducing means (3) for accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 70 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated direction in rolling contact with vacuum Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind turbine provided in 71 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 72 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 73 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 74 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 75 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind turbine provided with 76 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 77 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 78-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 79 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 80-stage vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 81 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 82 types of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 83-stage saddle type all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 84 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 85-stage vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 86 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 87 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 88 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one type turbine provided with 89 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 90 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 91-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 92 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction to 93 stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 94 A vertical full-blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction + 94 Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating or mixing with lubricious material + 95 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind turbine provided in 96 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 97 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 98 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 99 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 100 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 101 vertical stage moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 102 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 103-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 104 vertical stage moving blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 105-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 106 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 107-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction A combined energy storage cycle engine for generating electricity with one kind of turbine provided with 108 vertical rotor blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 109 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 110 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with 111-stage vertical all blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided 112 stages of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 113 stages of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 114 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 115 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 116 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity A combined energy storage cycle engine for generating electricity with one type of turbine provided with 117-stage full-rotor blade gravity turbines equipped with friction loss reducing means (3) aiming to increase the amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + 118 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 119 is a vertical all-blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by accelerating heavier substances in the vacuum direction by using a lubricant and covering and mixing. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 120 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with two gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with three types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with four types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 5 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 6 types of vertical type rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with seven types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 8 types of vertical rotor blade gravity turbines provided in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 9 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 10 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 11 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 12 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 13 types of vertical blade dynamic turbines equipped with (3) in 13 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with lubricious materials + Accelerates heavier substances in the vacuum direction to increase power generation and reduce friction loss Various energy storage cycle coalescing engines aiming at 1000 times power generation by providing vertical all blade gravity turbines equipped with means (3) in 14 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 15 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine having 16 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 17 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation by one type turbine provided with 18 types of vertical rotor blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 19 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 20 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 21 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 22 types of vertical blade dynamic turbines equipped with target friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 23 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 24 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 25 types of vertical all blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 26 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Configuration and method for sucking and accelerating the gravity sphere (2E) of the gravity-critical material gravity power generation output sphere (2E) 2 to 25 times the turbine blade cross section (4X) + acceleration sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one type turbine provided with 27 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 28 types of vertical rotor blade gravity turbines provided in 28 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 29 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 30 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 31 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 32 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 33-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation by one type turbine provided with 34 types of vertical rotor blade gravity turbines provided in 34 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation by one type turbine provided with 35 types of vertical blade dynamic turbines provided in 35 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 36-stage vertical blade dynamic gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 37-stage full-rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle combined engine of power generation by one kind of turbine provided with 38 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 39 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 40 types of vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 41 types of vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle combined engine of power generation by one kind of turbine provided with 42 types of vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 43 vertical stage moving blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 44 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 45 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 46 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 47 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 48 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 49 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 50 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 51 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 52 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 53 types of vertical bladed turbines equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 54 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 55 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 56 stages of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 57 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine with various energy storage cycles for power generation with one type turbine with 58 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine with various energy storage cycles for power generation with one type turbine with 59 vertical turbine blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine of various energy storage cycles for power generation with one type turbine with 60-stage vertical bladed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Various energy storage cycle coalescence engine for power generation with one type turbine with 61-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 62-stage vertical blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Various energy conservation cycle coalescence engine for power generation with one kind turbine with 63 vertical turbines equipped with frictional loss reduction means (3) aiming at increasing the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 64 types of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Various energy conservation cycle coalescence engine for power generation with one kind of turbine with 65-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing power generation amount by making heavy substance in vacuum direction rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Combined engine for various energy conservation cycles for power generation with one kind of turbine provided with 66 vertical rotor blade gravity turbines equipped with friction loss reduction means (3) aiming to increase power generation by using heavier substances in the accelerated rolling contact in the vacuum direction . タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Raise the head as much as possible + Increase ball increase device (2F) use the small diameter output increase ball (2E) with the impact reduction means (2G) to save and save + Reduce friction by coating or mixing with lubricious material + Preserving various types of energy for power generation with one type of turbine with 67-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Cycle coalescence engine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 68 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 69 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 70-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind turbine provided with 71 vertical stage all-blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one type turbine provided with 72 types of vertical blade dynamic turbines equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + 73-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 74 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 75 type full-rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind turbine provided in 76 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 77 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 78 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 79 stages of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 80-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one type turbine provided with 81 types of vertical blade dynamic turbines equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation by one kind turbine provided with 82 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 83-stage vertical blade dynamic gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 84 vertical stage moving blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind turbine provided with vertical type moving blade gravity turbine equipped with means (3) in 85 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 86 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 87 types of vertical rotor blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 88 types of vertical blade dynamic turbines provided in 88 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 89 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 90 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 91 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one kind turbine provided with a vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at 92 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + acceleration ball raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 93-stage vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + acceleration ball raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 94 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + acceleration ball raising device (2F) ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 95 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + acceleration ball raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 96 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+蓄電池駆動各種車両類にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coated steel balls vertically downward by providing multiple stages of specific gravity material power generation turbines with a turbine blade cross section (4X) of 2 to 25 times + acceleration ball raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine with 97 types of vertical bladed turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + 98-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 99 A vertical full-blade gravity turbine equipped with friction loss reduction means (3) that aims to increase the amount of power generation by accelerating heavier substances in the vacuum direction + 99 Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 100% of the vertical turbine blade gravity turbine equipped with friction loss reducing means (3) aiming to increase the power generation amount by using a heavy substance in the vacuum direction and rolling contact, Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind of turbine provided in 101 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 102 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 103 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 104 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 105 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 106 stages of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 107-type full-rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy conservation cycles for power generation with one kind of turbine provided with 108 vertical bladed turbines with 108 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 109 types of vertical blade dynamic turbines equipped with means (3) in 109 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 110 vertical stages of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine for power generation with one kind of turbine provided with 111 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided 112 stages of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 113 vertical stage moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 114 vertical stage moving blade gravity turbine equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 115 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 116 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 117 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reduction means (3) in 118 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 119 stages of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 120 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with aiming friction loss reducing means (3) in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with two types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + Three-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Friction reduction by covering and mixing with lubrication material + Frequency type full rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 5) A vertical all-blade gravity turbine equipped with friction loss reduction means (3) that aims to increase the amount of power generation by accelerating rolling contact with heavy substances in the vacuum direction. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in 6 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with gravity turbines in 7 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 8 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 9 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 10 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 11 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 12 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 13 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 14 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 15 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 16 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 17 types of vertical type moving blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 18 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 19 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 20 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 21 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 22 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 23 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 24 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 25 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 26 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 27 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + 28 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 29. Using a vertical full-blade gravity turbine equipped with friction loss reduction means (3) for increasing power generation by accelerating heavier substances in the vacuum direction by using a lubricant and covering and mixing with it. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating or mixing with lubricious material + 30 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in 31 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 32 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 33 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して1種類のタービンで発電する摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise Use the device (2F) to increase and store the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + reduce friction by coating and mixing with a lubricious material + accelerating heavier substances in the vacuum direction with one kind of turbine Various energy storage cycle combined engine of power generation with one type turbine provided with 34 types of vertical blade dynamic turbines equipped with friction loss reducing means (3) for generating electricity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 35 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 36 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 37 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38多段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 38 multistage vertical blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 39 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 40 types of vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 41 vertical turbine blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 42 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 43 vertical blade dynamic turbines arranged in 43 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 44 vertical stage moving blade gravity turbines equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with a heavy substance Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 45 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one type turbine provided with 46 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 47 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 48 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 49 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 50 stages of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind turbine provided with 51 stages of saddle type all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine of power generation with one type turbine provided with 52 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + 53 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Along with the use of ascending storage + Friction reduction by coating and mixing of lubrication material + 54 type full rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 55 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind turbine provided in 56 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 57 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 58 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 59 types of vertical bladed turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 60-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 61-stage full-rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine of power generation with one type turbine provided with 62 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 63-stage full-rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 64 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 65-stage vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine provided with 66-stage vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 67 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction A combined energy storage cycle engine for generating electricity with one kind of turbine provided with 68 types of vertical rotor blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 69-stage vertical all blade gravity turbine equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reducing means (3) in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 71 types of vertical all blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 72-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 73 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 74 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 75 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 76 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 77 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction to 78 stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + 79 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 80 vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in 81 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 82 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 83 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 84 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 85 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 86 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 87 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 88-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 89 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 90-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 91 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 92 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 93-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 94 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with a heavy substance Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 95 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine having 96-stage vertical rotor blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind turbine with 97-stage vertical bladed turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 98 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 99 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 100 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 101 vertical stage moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 102 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + Add a 103-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + 104 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 105 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in 106 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 107 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 108 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 109 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine provided with 110-stage vertical bladed turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 111-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 112 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 113 stages of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 114 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 115 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 116 kinds of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one type turbine provided with 117-stage full-rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 118 types of vertical blade dynamic turbines in 118 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 119 stages of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 120 types of vertical type moving blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with loss reduction means (3) in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with two types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with three types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with four types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 5 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 6 types of vertical type rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with seven types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction in 8 stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 9 vertical turbine blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 10 vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Combined engine with various energy storage cycles for power generation with one kind of turbine provided in 11 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 12 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 13 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 14 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 15 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 16 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 17 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation by one type turbine provided with 18 types of vertical rotor blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 19 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 20 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 21 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 22 types of vertical blade dynamic turbines equipped with target friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine for various energy conservation cycle of power generation by one type turbine provided with 23 types of vertical rotor blade gravity turbines provided in 23 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 24 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 25 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one type turbine provided with 26 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 27 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 28 types of vertical rotor blade gravity turbines provided in 28 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 29 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 30 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 31 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 32 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 33-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 34 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 35 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 36 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 37-stage full-rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 38 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 39 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 40 types of vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 41 vertical turbine blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 42 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 43 vertical all blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 44 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 45-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 46-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation by one type turbine provided with 47 types of vertical blade dynamic turbines provided in 47 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 48 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with 49 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind turbine provided with vertical type moving blade gravity turbine equipped with means (3) in 50 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 51 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with 52 types of vertical all blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 53 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 54 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 55 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 56 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 57 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one type turbine provided with 58 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one type turbine provided with 59 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 60 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 61 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 62 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 63-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 64 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 65-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle combined engine of power generation with one type turbine provided with 66 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 67 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine of various energy conservation cycles for power generation with one type turbine with 68-stage vertical blade dynamic turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine of various energy conservation cycles for power generation with one kind of turbine with 69-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Various energy conservation cycle coalescence engine for power generation with one type turbine with vertical type moving blade gravity turbine in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Various energy storage cycle coalescence engine of power generation with one kind turbine with vertical all blade gravity turbine installed in 71 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 72 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances Various energy storage cycle coalescence engine for power generation with one type turbine provided with 73-stage full-rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine for power generation with one type turbine provided with 74 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase power generation by accelerating in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 75 types of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming at increasing power generation as directional acceleration rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 76 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing power generation amount as an accelerated rolling contact in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Impact heavy substances Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 77 types of vertical type moving blade gravity turbine equipped with friction loss reduction means (3) that accelerates with reduction means (2G) and aims to increase power generation amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 78 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 79 stages of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 80-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one type turbine provided with 81 types of vertical blade dynamic turbines equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation by one kind turbine provided with 82 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + Add 83 parts of vertical blade dynamic turbine with friction loss reduction means (3) aiming to increase the amount of accelerated power generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 84 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating or mixing with lubricious material + 85 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation amount by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one type turbine provided in 86 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 87 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 88 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one type turbine provided with 89 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 90 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 91-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 92 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 93-stage vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 94 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 95 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 96 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine with 97 types of vertical bladed turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction A combined energy storage cycle engine for generating electricity with one kind of turbine provided with 98-stage vertical rotor blade gravity turbine equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 99-stage vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 100 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with 101 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 102-stage vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 103 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 104 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 105 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 106 stages of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 107-type full-rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + 108 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 109 and a vertical type blade gravity turbine equipped with friction loss reducing means (3) for accelerating heavier substances in the vacuum direction and aiming to increase power generation amount. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating or mixing with lubricious material + 110 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind of turbine provided in 111 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 112 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 113 stages of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 114 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 115 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 116 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity A combined energy storage cycle engine for generating electricity with one type of turbine provided with 117-stage full-rotor blade gravity turbines equipped with friction loss reducing means (3) aiming to increase the amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 118-stage full-rotor blade gravity turbine equipped with 3) タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 119 stages of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 120 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reduction means (3) in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with two types of vertical rotor blade gravity turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with a vertical all blade gravity turbine provided in three stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with four types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 5 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 6 types of vertical all blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 7 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 8 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 9 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 10 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 11 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 12 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + 13 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Friction reduction by covering and mixing with lubrication material + Further 14 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 15 A vertical all-blade gravity turbine equipped with friction loss reducing means (3) that aims to increase the amount of power generation by accelerating rolling contact with heavy substances in the vacuum direction. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided in 16 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 17 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 18 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 19 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 20 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 21 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 22 types of vertical all blade gravity turbines equipped with friction loss reducing means (3) aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 23 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 24 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 25 types of vertical all blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 26 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one type turbine provided with 27 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 28 types of vertical rotor blade gravity turbines provided in 28 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 29 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 30 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 31 types of vertical rotor blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 32 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 33 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 34 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 35 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 36-stage vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 37 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating or mixing with lubricious material + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction to 38 stages Combined engine with various energy conservation cycles for power generation with one installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 39) A vertical full blade gravity turbine equipped with friction loss reducing means (3) that aims to increase power generation by accelerating heavier substances in the vacuum direction + 39 Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 40 is a vertical rotor blade gravity turbine equipped with friction loss reducing means (3) that aims to increase power generation by using a heavy substance in a vacuum-accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind turbine provided in 41 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 42 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 43 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 44 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 45 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 46 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 47 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 48 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with 49 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with vertical type moving blade gravity turbine equipped with means (3) in 50 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 51 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 52 types of vertical type moving blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided in 53 stages of vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 54 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 55 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 56 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 57 types of vertical all blade gravity turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 58 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 59 types of vertical bladed turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 60-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 61-stage full-rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine of power generation with one type turbine provided with 62 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + 63 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + 64 type full rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 65 vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided in 66 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 67 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 68 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 69 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 70-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind turbine provided with 71 vertical stage all-blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one type turbine provided with 72 types of vertical blade dynamic turbines equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 73-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 74 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 75-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 76 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 77 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction A combined energy storage cycle engine for generating electricity with one kind of turbine provided with 78 types of vertical rotor blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 79 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 80-stage vertical rotor blade gravity turbine equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 81 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 82-type full blade dynamic turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 83 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 84 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 85 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 86 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 87 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction to 88 stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious materials + 89 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 90 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming at increased power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided in 91 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbine in 92 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 93 types of vertical type moving blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 94 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 95 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 96 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine of power generation with one kind turbine with 97 vertical all blade gravity turbines equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 98 types of vertical blade dynamic turbines provided in 98 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 99 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 100 vertical stages of all-blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 101 vertical stage moving blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation by one kind turbine provided with a vertical all blade gravity turbine equipped with target friction loss reducing means (3) in 102 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 103 vertical stage moving blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 104 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 105-stage vertical all blade gravity turbine equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 106 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 107-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 108 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 109 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine provided with 110-stage vertical bladed turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 111-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 112 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + 113 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated power generation in the vacuum Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + friction reduction by covering and mixing with lubricious material + 114 type full-rotor blade gravity turbine equipped with friction loss reduction means (3) for accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 115 A vertical all-blade gravity turbine equipped with friction loss reducing means (3) that aims to increase the amount of power generation by applying a heavy material to the vacuum-accelerated rolling contact and using it as a preservative material. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind of turbine provided in 116 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 117 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reduction means (3) in 118 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 119 stages of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 120 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with aiming friction loss reducing means (3) in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with two types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 3 types of vertical rotor blade gravity turbines provided in 3 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with four types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 5 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 6 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine with 7 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 8 types of vertical rotor blade gravity turbines provided in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 9 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 10 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with 11 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engines for power generation with one kind of turbine provided with 12 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 13 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 14 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 15 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 16 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 17 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubrication material + 18 stages of vertical bladed turbine with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 19 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 20 vertical turbine blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided in 21 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with gravity turbine in 22 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 23 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 24 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 25 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 26 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 27 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 28 types of vertical rotor blade gravity turbines provided in 28 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 29 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 30 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 31 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 32 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 33 vertical rotor blade gravity turbines provided in 33 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 34 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 35 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 36 types of vertical rotor blade gravity turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one kind turbine provided with 37 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 38 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 39 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 40 types of vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 41 vertical turbine blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 42 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 43 vertical all blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle combined engine of power generation with one kind of turbine provided with 44 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 45 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one type turbine provided with 46 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 47 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 48 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with 49 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with vertical type moving blade gravity turbine equipped with means (3) in 50 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 51 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 52 types of vertical type moving blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 53 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 54 types of vertical blade dynamic turbines provided in 54 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 55-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 56-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 57-stage full-rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 58 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 59 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 60-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 61 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with 62 vertical stage moving blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 63 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 64 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 65-stage vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 66 types of vertical all blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 67 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 68 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 69-stage vertical all blade gravity turbine equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reducing means (3) in 70 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 71 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reduction means (3) in 72 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 73-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 74 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy conservation cycle coalescence engine for power generation with one kind turbine provided with 75-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 76 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 77 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine of various energy conservation cycles for power generation with one type turbine with 78-type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine of various energy storage cycles for power generation with one type turbine with 79-type full-blade gravity turbine in 79 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine with various energy conservation cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 80 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 81-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 82 type all-blade gravity turbines installed in 82 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances Various energy storage cycle coalescence engine of power generation with one type turbine provided with 83-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine for power generation with one type turbine provided with 84 types of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation amount by accelerating in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Various energy storage cycle coalescence engine for power generation with one kind turbine, which is provided with 85-type vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing power generation amount as directional acceleration rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy conservation cycle coalescence engine for power generation with one type turbine with 86 types of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming at increasing power generation as vacuum accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Impact heavy substances Various energy conservation cycle coalescence engine for power generation with one kind turbine with 87-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) that accelerates together with reduction means (2G) to increase power generation amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 88 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one type turbine provided with 89 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 90 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 91-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 92 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction to 93 stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 94 A vertical full-blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction + 94 Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating or mixing with lubricious material + 95 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind turbine provided in 96 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 97 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 98 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 99 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 100 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 101 vertical stage moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 102 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 103-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 104 vertical stage moving blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 105-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 106 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 107-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction A combined energy storage cycle engine for generating electricity with one kind of turbine provided with 108 vertical rotor blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 109 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 110 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with 111-stage vertical all blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided 112 stages of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 113 stages of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 114 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 115 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 116 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity A combined energy storage cycle engine for generating electricity with one type of turbine provided with 117-stage full-rotor blade gravity turbines equipped with friction loss reducing means (3) aiming to increase the amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious materials + 118 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 119 is a vertical all-blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by accelerating heavier substances in the vacuum direction by using a lubricant and covering and mixing. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 120 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with two gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with three types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with four types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 5 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 6 types of vertical type rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with seven types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 8 types of vertical rotor blade gravity turbines provided in 8 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 9 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 10 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 11 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 12 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 13 types of vertical blade dynamic turbines equipped with (3) in 13 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 14 types of vertical type moving blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 15 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine having 16 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 17 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 18 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 19 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 20 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 21 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 22 types of vertical all blade gravity turbines equipped with friction loss reducing means (3) aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 23 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 24. A vertical full blade gravity turbine equipped with friction loss reduction means (3) that accelerates the heavier substances in the vacuum direction and aims to increase the amount of power generation by using ascending and preserving + lubricating material coating and mixing 24 Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending and storage + Friction reduction by coating and mixing with lubrication material + 25 vertical full-blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation amount by using heavy substances in accelerated vacuum rolling contact Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided in 26 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with 27 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 28 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 29 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 30 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 31 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 32 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 33-stage vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 34 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 35 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 36 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 37-stage full-rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 38 types of vertical blade gravity turbines provided in 38 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 39 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 40 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with 41 types of vertical rotor blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 42 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 43 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 44 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 45 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを46段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として1種類のタービンで発電する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbine is installed in 46 stages to accelerate the coated steel ball vertically downward + Shift from theoretical best engine to best engine result + increase ball Using the ascending device (2F), the small-diameter output increasing sphere (2E) is used for ascending storage together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + one type of heavier substance as accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine that generates electricity with a turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 47 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious materials + 48 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 49. Use of a vertical full-blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by accelerating heavier substances in the vacuum direction. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 50 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind turbine provided in 51 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 52 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 53 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 54 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 55 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 56 stages of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine of power generation with one type turbine provided with 57 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine having 58 vertical stages of vertical blade dynamic turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 59 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 60-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 61 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 62 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 63 vertical stage moving blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one type turbine provided with 64 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 65-stage vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 66 types of vertical rotor blade gravity turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 67 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 68 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 69 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 70-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind turbine provided with 71 vertical stage all-blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one type turbine provided with 72 types of vertical blade dynamic turbines equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + 73-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 74 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 75 type full-rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind turbine provided in 76 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 77 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 78 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 79 stages of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type turbine provided with 80-stage vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one type turbine provided with 81 types of vertical blade dynamic turbines equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation by one kind turbine provided with 82 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 83-stage vertical blade dynamic gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 84 vertical stage moving blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind turbine provided with vertical type moving blade gravity turbine equipped with means (3) in 85 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 86 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 87 types of vertical rotor blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 88 types of vertical blade dynamic turbines provided in 88 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 89 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 90 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 91 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy conservation cycle coalescence engine of power generation with one kind turbine provided with a vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at 92 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 93 types of vertical type moving blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 94 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 95 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 96 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine of power generation with one kind turbine with 97 vertical all blade gravity turbines equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + 98-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming at increasing the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 99 A vertical full-blade gravity turbine equipped with friction loss reduction means (3) that aims to increase the amount of power generation by accelerating heavier substances in the vacuum direction + 99 Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 100% of the vertical turbine blade gravity turbine equipped with friction loss reducing means (3) aiming to increase the power generation amount by using a heavy substance in the vacuum direction and rolling contact, Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind of turbine provided in 101 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 102 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 103 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 104 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 105 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 106 stages of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 107-type full-rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy conservation cycles for power generation with one kind of turbine provided with 108 vertical bladed turbines with 108 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 109 types of vertical blade dynamic turbines equipped with means (3) in 109 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 110 vertical stages of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine for power generation with one kind of turbine provided with 111 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided 112 stages of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 113 vertical stage moving blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 114 vertical stage moving blade gravity turbine equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 115 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 116 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 117 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with reduction means (3) in 118 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 119 stages of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 120 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with aiming friction loss reducing means (3) in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with two types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + Three-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) + Friction reduction by covering and mixing with lubrication material + Frequency type full rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 5) A vertical all-blade gravity turbine equipped with friction loss reduction means (3) that aims to increase the amount of power generation by accelerating rolling contact with heavy substances in the vacuum direction. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in 6 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with gravity turbines in 7 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 8 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 9 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 10 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 11 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 12 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 13 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 14 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 15 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 16 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 17 types of vertical type moving blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 18 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 19 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 20 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 21 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 22 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 23 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 24 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 25 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 26 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 27 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + 28 stages of vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated power generation in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 29. Using a vertical full-blade gravity turbine equipped with friction loss reduction means (3) for increasing power generation by accelerating heavier substances in the vacuum direction by using a lubricant and covering and mixing with it. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating or mixing with lubricious material + 30 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in 31 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with gravity turbines in 32 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 33 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 34 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one type turbine provided with 35 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 36 types of vertical type moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 37 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 38 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 39 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 40 types of vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 41 vertical turbine blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 42 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 43 vertical blade dynamic turbines arranged in 43 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 44 vertical stage moving blade gravity turbines equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with a heavy substance Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 45 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one type turbine provided with 46 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 47 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 48 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with 49 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with vertical type moving blade gravity turbine equipped with means (3) in 50 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 51 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 52 types of vertical type moving blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 53 types of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with 54 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) With a small diameter output increasing sphere (2E) together with impact reduction means (2G) for storage + reduction of friction by covering and mixing with a lubricious material + reduction of friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 55 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 56 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+比重大物質でタービン駆動する+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Structure and method for sucking and accelerating the gravity-critical power generation output sphere (2E) 2 to 25 times in the turbine blade cross section (4X) vertically downward in vacuum + Increased sphere raising device (2F) ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 57 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine having 58 vertical stages of vertical blade dynamic turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 59 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 60-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 61 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 62 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 63-stage full-rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 64 types of vertical rotor blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 65-stage vertical all blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 66 types of vertical rotor blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 67 types of vertical rotor blade gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 68 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle combined engine of power generation with one kind of turbine provided with 69 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 70-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 71 vertical all blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one type turbine provided with a vertical all blade gravity turbine having means (3) in 72 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 73 vertical stage full-blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 74 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 75-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle combined engine for power generation with one kind of turbine provided with 76 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 77 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを78段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 78 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを79段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 79 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを80段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 80-stage vertical rotor blade gravity turbine equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを81段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 81 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを82段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine for power generation with one kind of turbine provided with 82 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを83段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 83 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを84段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 84 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを85段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy conservation cycle coalescence engine for power generation with one kind turbine provided with a vertical all blade gravity turbine equipped with aiming friction loss reduction means (3) in 85 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを86段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 86 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを87段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 87 types of vertical rotor blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを88段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine with various energy storage cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 88 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを89段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine with various energy storage cycles for power generation with one type turbine with 89 vertical turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを90段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine of various energy storage cycles for power generation with one type turbine with 90-stage vertical all blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを91段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are provided in multiple stages to accelerate the covered mercury vertically downward + storage battery powered various ships prime + increase ball rising device (2F ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine with various energy conservation cycles for power generation with one type of turbine with 91-stage vertical type full-blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆水銀を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを92段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the coating mercury vertically downward by providing multiple stages of specific-material gravity power generation turbines with a turbine blade cross section (4X) of 2 to 25 times. ) With a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + friction reduction by covering and mixing with a lubricious material + friction loss reducing means (3) aiming at the same water maximum power generation Combined engine of various energy conservation cycles for power generation with one kind of turbine with vertical turbine blade gravity turbine in 92 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを93段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase ball increase device (2F) Small diameter output increase ball (2E) is used for ascending storage with impact reduction means (2G) + Friction reduction by coating or mixing with lubricious material + Specific critical substances Various energy storage cycle coalescence engine for power generation with one kind of turbine with 93 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase the amount of accelerated power generation in the vacuum direction. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを94段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances A combined energy storage cycle engine for generating electricity with one kind of turbine, which is provided with 94-stage vertical rotor blade gravity turbines equipped with friction loss reducing means (3) for accelerating in the vacuum direction to increase the amount of electricity generated タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを95段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball lift device (2F) Use small diameter output increase ball (2E) with impact reduction means (2G) to save and save + Reduce friction by covering and mixing lubricant material + Vacuum heavy material Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 95 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing power generation amount as directional accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを96段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Drop increase + Increase sphere lift device (2F) Small diameter output increase sphere (2E) is lifted and stored together with impact reduction means (2G) + Friction reduction by covering and mixing with lubricious material + Heavy substances Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 96 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing power generation as vacuum accelerated rolling contact. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを97段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate steel balls vertically downward + Shift from theoretical best engine to best engine result + Increase ball rising device (2F) Increase head drop + Increase ball increase device (2F) Use small diameter output increase ball (2E) together with impact reduction means (2G) to save and use + Reduce friction by coating and mixing with lubricious material + Impact heavy substances Various energy storage cycle coalescence engine for power generation with one type turbine with 97-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating with reduction means (2G). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを98段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 98 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを99段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 99 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを100段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 100 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを101段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 101 vertical stage moving blade gravity turbine equipped with aiming friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを102段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 102 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを103段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + Add a 103-stage vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを104段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending storage + Reduce friction by coating and mixing with lubricious material + 104 vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを105段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 105 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを106段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind of turbine provided in 106 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 107 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを108段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 108 vertical stage moving blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを109段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 109 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを110段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one type of turbine provided with 110-stage vertical bladed turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを111段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 111-stage vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを112段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 112 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを113段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 113 stages of vertical rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを114段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 114 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを115段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 115 types of vertical blade dynamic turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを116段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 116 kinds of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを117段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine of power generation with one type turbine provided with 117-stage full-rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを118段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 118 types of vertical blade dynamic turbines in 118 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを119段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 119 stages of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを120段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 120 types of vertical type moving blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを1段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle combined engine of power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with loss reduction means (3) in one stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを2段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with two types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを3段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with three types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを4段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with four types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを5段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 5 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを6段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 6 types of vertical type rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを7段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with seven types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを8段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction in 8 stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを9段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 9 vertical turbine blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを10段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 10 vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase power generation by using heavy substances in accelerated contact in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを11段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Combined engine with various energy storage cycles for power generation with one kind of turbine provided in 11 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを12段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Various energy storage cycle coalescence engine for power generation with one kind of turbine with 12 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを13段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle combined engine of power generation with one kind of turbine provided with 13 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを14段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 14 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを15段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 15 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを16段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 16 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを17段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 17 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを18段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation by one type turbine provided with 18 types of vertical rotor blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを19段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 19 types of vertical rotor blade gravity turbines equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを20段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 20 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを21段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 21 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを22段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one type turbine provided with 22 types of vertical blade dynamic turbines equipped with target friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを23段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine for various energy conservation cycle of power generation by one type turbine provided with 23 types of vertical rotor blade gravity turbines provided in 23 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを24段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 24 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを25段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 25 types of vertical all blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを26段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one type turbine provided with 26 types of vertical blade dynamic turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを27段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 27 types of vertical type moving blade gravity turbine equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを28段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 28 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを29段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 29 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを30段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 30 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを31段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one type turbine provided with 31 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを32段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one kind of turbine provided with 32 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming to increase quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを33段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + 33 stages of vertical all blade gravity turbines equipped with friction loss reduction means (3) aiming to increase the amount of accelerated generation of specific critical substances in the vacuum direction Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを34段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending preserving + Reduce friction by coating and mixing with lubricious material + 34 type full rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを35段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) In addition, it is used for ascending storage + friction reduction by covering and mixing with lubricious material + 35 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation amount by using heavy substances in accelerated vacuum rolling contact Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを36段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine of power generation with one kind turbine provided in 36 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを37段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 37 gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを38段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 38 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを39段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 39 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを40段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 40 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを41段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) ascending and storing together with the impact reduction means (2G) + reduces friction by coating and mixing with a lubricious material + increases the amount of power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 41 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを42段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy conservation cycle coalescence engine of power generation with one type turbine provided with 42 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを43段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 43 vertical all blade gravity turbines equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを44段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle combined engine of power generation with one kind of turbine provided with 44 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを45段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 45 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを46段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one type turbine provided with 46 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを47段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy storage cycle coalescence engine for power generation with one kind turbine provided with 47 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを48段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction A combined energy storage cycle engine for generating electricity with one kind of turbine provided with 48 types of vertical rotor blade gravity turbines equipped with (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを49段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 49 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを50段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with a heavy substance Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 50 types of vertical all blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを51段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided with a vertical all blade gravity turbine equipped with loss reduction means (3) in 51 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを52段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 52 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを53段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 53 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを54段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) to save and save + reduce friction by coating and mixing with a lubricious material + aim at increasing power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 54 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを55段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 55 types of vertical blade dynamic turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを56段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle coalescence engine of power generation with one kind turbine provided with 56 stages of vertical all blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆鋼球を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを57段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity power generation turbines are installed in multiple stages to accelerate the coated steel ball vertically downward + Shift from the theoretical best engine to the best engine result + Increase ball rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine of power generation with one type turbine provided with 57 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを58段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use with ascending storage + Reduce friction by coating and mixing with lubricious material + Vertically moving blade gravity turbine equipped with friction loss reduction means (3) aiming at increasing the amount of accelerated power generation in the vacuum direction for specific critical substances in 58 stages Combined engine with various energy storage cycles for power generation with one kind of installed turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを59段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Use ascending and storage + Reduce friction by coating and mixing with lubricious material + 59 type vertical rotor blade gravity turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを60段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) 60 A vertical full rotor blade gravity turbine equipped with friction loss reducing means (3) that aims to increase power generation by using a heavy material as an accelerated rolling contact in a vacuum direction. Various energy storage cycle coalescence engine for power generation with one kind of turbine installed in the stage. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを61段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) A vertical type rotor blade gravity turbine equipped with friction loss reduction means (3) that aims to increase power generation by using a heavier substance in a vacuum accelerated rolling contact. Various energy storage cycle coalescence engine for power generation with one kind turbine provided in 61 stages. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力発生タービン翼を全部にする設備方法+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを62段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific material gravity generating power generation equipment method to make all turbine blades + increase ball rising device (2F) small diameter output increase ball (2E) impact reduction means (2G) Used for ascending and storage + Reduced friction by coating and mixing with lubricious material + Vertical type blades equipped with friction loss reduction means (3) that accelerates heavy substances together with impact reduction means (2G) to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine with 62 stages of gravity turbines. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを63段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reduces friction by coating and mixing with a lubricious material + friction loss aimed at increasing the amount of accelerated power generation in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 63 types of vertical rotor blade gravity turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを64段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to experimental result best engine + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + Reduces friction by coating and mixing with a lubricious material + Accelerates heavier substances in the vacuum direction to increase power generation Combined engine of various energy storage cycles for power generation with one kind of turbine provided with 64 stages of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを65段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses a small-diameter output increasing sphere (2E) together with the impact reducing means (2G) for storage and storage + reducing friction by coating and mixing with a lubricious material + aiming to increase power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 65 types of vertical rotor blade gravity turbine equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを66段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Increases power generation by using a heavier substance in an accelerated rolling contact in the vacuum direction Various energy storage cycle combined engine of power generation with one type turbine provided with 66 types of vertical rotor blade gravity turbine equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて比重大物質を垂直下方に加速する構造や方法+理論最良エンジンから実験結果最良エンジンに移行+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを67段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific critical material gravity power generation turbines are installed in multiple stages to accelerate specific critical material vertically downward + Shift from theoretical best engine to best experimental result + Increase sphere rise The device (2F) uses the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) to save and use + reducing friction by coating and mixing with a lubricious material + accelerating heavy substances with the impact reduction means (2G) to generate electricity Various energy storage cycle coalescence engine for power generation with one type turbine provided with 67 types of vertical all blade gravity turbine equipped with friction loss reducing means (3) aiming to increase the amount. タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを68段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are installed in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) Is used to store and increase the small-diameter output increasing sphere (2E) together with the impact reducing means (2G) + friction reduction by coating or mixing with a lubricious material + friction loss reducing means for increasing the amount of specific critical substances to be accelerated in the vacuum direction ( 3) Combined engine of various energy storage cycles for power generation with one type turbine provided with 68-stage full-rotor blade gravity turbine equipped with 3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを69段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small-diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + reducing friction by coating and mixing with a lubricious material + reducing friction loss by accelerating heavier substances in the vacuum direction to increase power generation Various energy storage cycle combined engine of power generation with one kind of turbine provided with 69 types of vertical rotor blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを70段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increase sphere (2E) ascending and storing together with the impact reduction means (2G) + reduce friction by coating and mixing with lubricious materials + reduce friction loss aiming at increased power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine of power generation by one kind of turbine provided with 70-stage vertical all blade gravity turbine equipped with means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを71段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) And use the small diameter output increasing sphere (2E) ascending and storing together with the impact reducing means (2G) + friction reduction by coating and mixing with lubricious material + friction loss aiming at increasing power generation by accelerating rolling contact with heavier substances Various energy storage cycle coalescence engine of power generation with one kind of turbine provided with 71 types of vertical rotor blade gravity turbine equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電タービンを多段に設けて被覆比重大物質を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを72段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 25 times specific gravity material gravity power generation turbines are arranged in multiple stages to accelerate the coverage ratio critical material vertically downward + full electrified house prime + increasing ball rising device (2F ) To increase the power generation amount by accelerating and storing the small-diameter output increasing sphere (2E) together with the impact reduction means (2G) + accelerating friction with the lubrication material coating and mixing + accelerating heavy substances with the impact reduction means (2G) Various energy conservation cycle coalescence engine of power generation with one kind turbine provided with 72 types of vertical blade dynamic turbines equipped with aiming friction loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを73段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating or mixing with a lubricious material + Friction loss reduction means aiming at increasing the amount of accelerated power generation in the vacuum direction (3) Combined engine of various energy storage cycles for power generation by one kind of turbine provided with 73-stage vertical rotor blade gravity turbine. タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを74段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) together with impact reduction means (2G) to store and save + Reduces friction by covering and mixing with lubricious material + Friction loss aiming to increase power generation by accelerating heavier substances in the vacuum direction Various energy conservation cycle coalescence engine for power generation with one kind of turbine provided with 74 types of vertical blade dynamic turbines equipped with reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを75段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction loss aimed at increasing power generation by accelerating rolling contact with heavy substances in the vacuum direction Various energy storage cycle coalescence engine for power generation with one kind of turbine provided with 75-stage vertical rotor blade gravity turbine equipped with reducing means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+より重い物質を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを76段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reduction means (2G) + Reduces friction by coating and mixing with a lubricious material + Friction aiming at increasing power generation by accelerating rolling contact with heavier substances Combined engine of various energy storage cycles for power generation with one kind of turbine provided in 76 stages with vertical all blade gravity turbine equipped with loss reduction means (3). タービン翼断面(4X)を2〜25倍の比重大物質重力発電出力増大球(2E)を重力加速度で垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で小径出力増大球(2E)を衝撃低減手段(2G)と共に上昇保存使用する+潤滑性材料の被覆や混合で摩擦低減+重い物質を衝撃低減手段(2G)と共に加速して発電量増大を狙う摩擦損失低減手段(3)を具備した竪型全動翼重力タービンを77段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 25 times specific material gravity power generation output increasing sphere (2E) structure and method of accelerating vertically downward by gravitational acceleration + accumulating battery driving various automobiles + increasing sphere raising device ( 2F) Uses a small-diameter output increasing sphere (2E) ascending and storing together with impact reducing means (2G) + Reduces friction by coating and mixing with a lubricious material + Accelerates heavy substances with impact reducing means (2G) to increase power generation Various energy storage cycle coalescence engine of power generation with one type turbine provided with 77 types of vertical rotor blade gravity turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜25倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross-section (4X) is 2 to 25 times larger than the specific critical material solid or liquid, and the specific critical material for power generation is coated with a lubricating material. タービン翼断面(4X)を2倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which a specific material of power generation is coated and mixed with a specific material of gravity and specific gravity of solid and liquid with a turbine blade cross section (4X) doubled. タービン翼断面(4X)を3倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines with a specific gravity material of solid or liquid with a three-fold turbine blade cross section (4X) and a lubricant material coated and mixed with the gravity material of power generation. タービン翼断面(4X)を4倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines, in which the specific material of power generation is coated and mixed with the gravity of solid material or liquid with specific gravity, which has four times the turbine blade cross section (4X). タービン翼断面(4X)を5倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines with a specific component of solid and liquid with a turbine blade cross-section (4X) 5 times, and a lubricating material coated and mixed with the gravity of a solid or liquid. タービン翼断面(4X)を6倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines with a specific gravity material of solid and liquid with 6 times the turbine blade cross section (4X) and a lubricant material coated and mixed with the gravity material of power generation. タービン翼断面(4X)を7倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is 7 times larger and the specific gravity material of the power generation is coated with a lubricating material by gravity of solid or liquid gravity. タービン翼断面(4X)を8倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines with a specific gravity material of solid or liquid with a turbine blade cross section (4X) 8 times, and a lubricating material coated and mixed with the gravity material of power generation. タービン翼断面(4X)を9倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the specific gravity of solid power and solid gravity are coated with a lubricious material by gravity of solid and liquid with a turbine blade cross section (4X) 9 times larger. タービン翼断面(4X)を10倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which a specific material of power generation is coated and mixed with a gravity material of specific critical material solid or liquid having a turbine blade cross section (4X) 10 times the gravity. タービン翼断面(4X)を11倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines with a specific component of solid and liquid with 11 times the cross section (4X) of turbine blades, and a lubricant material coated and mixed with the specific material of power generation by gravity of solid or liquid. タービン翼断面(4X)を12倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with specific gravity material solid and liquid gravity provided with 12 times the turbine blade cross section (4X) and coated with lubricious material. タービン翼断面(4X)を13倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is 13 times larger and the specific material of solid or liquid is coated with a lubricious material. タービン翼断面(4X)を14倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is 14 times larger and the specific material of solid or liquid is coated with a lubricious material. タービン翼断面(4X)を15倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines with a specific gravity of solid or liquid gravity and a specific material of power generation coated with a lubricious material by gravity of the turbine blade cross section (4X) 15 times. タービン翼断面(4X)を16倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines in which a specific material of power generation is coated and mixed with a gravity material of specific critical material solid or liquid with 16 times the turbine blade cross section (4X). タービン翼断面(4X)を17倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines with a specific component of solid and liquid with a turbine blade cross-section (4X) of 17 times, and a lubricant material coated and mixed with the specific component of power generation by gravity of solid or liquid. タービン翼断面(4X)を18倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross-section (4X) is 18 times larger than the specific critical material solid or liquid gravity and the specific material of power generation is coated with a lubricating material. タービン翼断面(4X)を19倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific gravity material of solid and liquid with a turbine blade cross-section (4X) 19 times, and a lubricant material coated and mixed with the gravity material of power generation by gravity. タービン翼断面(4X)を20倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the specific material of power generation is coated and mixed with the specific material of power generation by gravity of solid material or liquid with 20 times the turbine blade cross section (4X). タービン翼断面(4X)を21倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines with a specific gravity of solid and liquid gravity and a specific material of power generation coated with a lubricious material, with a turbine blade cross section (4X) 21 times larger. タービン翼断面(4X)を22倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines in which the turbine blade cross-section (4X) is 22 times larger than the specific critical material solid or liquid, and the specific critical material for power generation is coated with a lubricating material. タービン翼断面(4X)を23倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines in which the turbine blade cross section (4X) is 23 times larger and the specific gravity material of solid or liquid is coated with a lubricious material. タービン翼断面(4X)を24倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines, which are made by coating the specific material of power generation with the gravity of solid or liquid specific gravity, which has 24 times the cross section of the turbine blade (4X), and the lubricating material. タービン翼断面(4X)を25倍に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is 25 times larger and the specific gravity material of solid or liquid is coated with a lubricious material. 竪型全動翼重力タービンを103段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of a vertical all-blade gravity turbine with 103 stages and a specific material of solid or liquid gravity coated with a lubricious material. 竪型全動翼重力タービンを104段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine in 104 stages and has a specific material of solid and liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを105段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 105 stages and has a specific material of solid or liquid gravity coated with a lubricious material. 竪型全動翼重力タービンを106段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of 106-stage vertical all-blade gravity turbine, which is made of a specific material of solid or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを107段に設けた1種類タービンで発電の各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine for power generation with one kind of turbine with 107-type vertical rotor blade gravity turbine. 竪型全動翼重力タービンを108段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 108 stages, and which is made of a specific material of solid and liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを109段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを110段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 110 stages, and a specific material of solid or liquid gravity coated with a lubricious material. 竪型全動翼重力タービンを111段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 111 stages, and is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを112段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of power generation by gravity of solid material or liquid with 112 vertical rotor blade gravity turbines. 竪型全動翼重力タービンを113段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of 113-stage vertical all-blade gravity turbines, which are made of a specific material of solid or liquid and coated with a lubricating material. 竪型全動翼重力タービンを114段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all blade gravity turbine installed in 114 stages, coated with a lubricious material and coated with a specific material for power generation by gravity of solid or liquid gravity. 竪型全動翼重力タービンを115段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all blade gravity turbine installed in 115 stages, and which is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを116段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all blade gravity turbine installed in 116 stages, coated with a lubricious material and mixed with a specific material of power generation by gravity of solid or liquid. 竪型全動翼重力タービンを117段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material for power generation coated with a lubricious material. 竪型全動翼重力タービンを118段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine in 118 stages, and has a specific material of solid or liquid gravity coated with a lubricious material. 竪型全動翼重力タービンを119段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a 119-stage vertical all-blade gravity turbine in which a specific material of solid and liquid gravity and a specific material of power generation are coated with a lubricating material. 竪型全動翼重力タービンを120段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all blade gravity turbine installed in 120 stages, coated with a lubricious material and mixed with a specific material of power generation by gravity of solid or liquid gravity. 竪型全動翼重力タービンを1段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines, in which a vertical all-blade gravity turbine is installed in one stage, and a specific material of solid or liquid gravity is coated with a lubricating material. 竪型全動翼重力タービンを2段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines, in which a vertical all-blade gravity turbine is installed in two stages and a specific material of solid or liquid gravity is coated with a lubricating material. 竪型全動翼重力タービンを3段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of three types of vertical turbine blade gravity turbines, with specific material of solid or liquid gravity coated with lubricating material. 竪型全動翼重力タービンを4段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of four types of vertical bladed turbines with specific gravity, solid and liquid gravity, and mixed with lubricious material. 竪型全動翼重力タービンを5段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines, in which vertical-type all-blade gravity turbines are installed in five stages, and specific lubricants are coated and mixed with specific gravity substances for power generation by gravity of solid and liquid gravity. 竪型全動翼重力タービンを6段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 6-stage vertical all-blade gravity turbine, which is made of a specific material of solid or liquid and coated with a lubricious material. 竪型全動翼重力タービンを7段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを8段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines, in which a vertical all-blade gravity turbine is installed in 8 stages and a specific material of solid or liquid is coated with a lubricating material. 竪型全動翼重力タービンを9段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 9 types of vertical rotor blade gravity turbines, and is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを10段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material and liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを11段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of gravity with solid gravity or liquid gravity, which is equipped with a vertical all blade gravity turbine in 11 stages. 竪型全動翼重力タービンを12段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with 12 types of vertical all-blade gravity turbines, with specific gravity material solid and liquid gravity and mixed with lubricious material. 竪型全動翼重力タービンを13段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material and liquid gravity and a specific material of power generation coated with a lubricious material, with a vertical all blade gravity turbine in 13 stages. 竪型全動翼重力タービンを14段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material for power generation coated with a lubricious material. 竪型全動翼重力タービンを15段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines in which a specific material of solid or liquid gravity is coated with a lubricating material and coated with a lubricating material, with a vertical all-blade gravity turbine installed in 15 stages. 竪型全動翼重力タービンを16段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines, in which a vertical all-blade gravity turbine is installed in 16 stages, and a specific material of solid or liquid gravity is coated with a lubricating material and coated with a specific material of gravity. 竪型全動翼重力タービンを17段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを18段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a special type of solid and liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを19段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material for power generation coated with a lubricious material, with a vertical all-blade gravity turbine installed in 19 stages. 竪型全動翼重力タービンを20段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを21段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 21 types of vertical turbine blade gravity turbines, and is made of a specific material of solid or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを22段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of power generation by gravity of solid and liquid with 22 vertical turbine blade gravity turbines. 竪型全動翼重力タービンを23段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with the specific material of power generation by gravity of solid and liquid with 23 vertical blade gravity turbines. 竪型全動翼重力タービンを24段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specially-significant substance solid or liquid gravity installed in 24 stages and a lubricating material coated and mixed with a lubricious material in the gravity stage of a vertical type moving blade gravity turbine. 竪型全動翼重力タービンを25段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of power generation by gravity of solid material and liquid, which is equipped with a vertical all blade gravity turbine in 25 stages. 竪型全動翼重力タービンを26段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of 26-stage vertical all-blade gravity turbine, which is made of a specific material of solid or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを27段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a special type of solid material or liquid gravity and a specific material for power generation coated with a lubricating material. 竪型全動翼重力タービンを28段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 28 types of vertical all-blade gravity turbines, with specific material of solid or liquid gravity coated with lubrication material. 竪型全動翼重力タービンを29段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 29 stages, and a specific material of solid or liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを30段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of power generation by gravity of solid and liquid with 30 vertical turbine gravity turbines. 竪型全動翼重力タービンを31段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with a special type of solid and liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを32段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with a special type of solid and liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを33段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを34段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 34 stages, coated with a lubricious material and mixed with a specific material for power generation by gravity of solid or liquid. 竪型全動翼重力タービンを35段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを36段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescing engines, in which a vertical all-blade gravity turbine is installed in 36 stages, and a specific material for power generation is coated with a lubricating material by gravity of solid or liquid gravity. 竪型全動翼重力タービンを37段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material for power generation coated with a lubricious material. 竪型全動翼重力タービンを38段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 38 types of vertical bladed turbines with specific critical material solid or liquid gravity and coated with lubricating material. 竪型全動翼重力タービンを39段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 39 types of vertical turbine blade gravity turbines, and has a specific material of solid and liquid gravity and a specific material of power generation coated with lubricating material. 竪型全動翼重力タービンを40段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 40 stages, and a specific material of power generation by the gravity of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを41段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 41 types of vertical rotor blade gravity turbines, with specific material of solid and liquid gravity coated with lubricating material. 竪型全動翼重力タービンを42段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine in 42 stages, and has a specific material of solid or liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを43段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material for power generation coated with a lubricious material. 竪型全動翼重力タービンを44段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specially-significant substance solid or liquid gravity installed in 44 stages of vertical all-blade gravity turbines, which are coated with a lubricant material and coated with a lubricant material. 竪型全動翼重力タービンを45段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを46段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines, in which a vertical all-blade gravity turbine is installed in 46 stages, and a specific material of power generation is coated with a lubricant material by gravity of solid or liquid gravity. 竪型全動翼重力タービンを47段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of 47 types of vertical all-blade gravity turbines, with specific material of solid or liquid gravity coated with lubricating material. 竪型全動翼重力タービンを48段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   A combination of various energy conservation cycle engines with 48-stage vertical all-blade gravity turbines, in which a specific material of solid or liquid gravity is coated with a lubricating material and coated with a gravity material. 竪型全動翼重力タービンを49段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of power generation by gravity of solid material and liquid, which is equipped with a vertical all blade gravity turbine in 49 stages. 竪型全動翼重力タービンを50段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを51段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine in 51 stages, and which is made of a specific material of solid or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを52段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 52 stages, and a specific material of power generation by gravity of solid or liquid, coated with a lubricating material. 竪型全動翼重力タービンを53段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of power generation by gravity of solid material or liquid with 53 vertical rotor blade gravity turbines. 竪型全動翼重力タービンを54段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 54-stage vertical all-blade gravity turbine, which is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを55段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material by gravity. 竪型全動翼重力タービンを56段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines, which are composed of 56-stage vertical all blade gravity turbines, which are made of a specific material of solid or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを57段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of 57 types of vertical rotor blade gravity turbines, with specific material of solid and liquid gravity coated with lubricating material and mixed with gravity material of power generation. 竪型全動翼重力タービンを58段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine in 58 stages, and is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを59段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material for power generation coated with a lubricious material. 竪型全動翼重力タービンを60段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 60 types of vertical bladed turbines, and is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを61段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 61 stages, and is coated with a lubricious material and coated with a specific material of specific power of solid or liquid gravity. 竪型全動翼重力タービンを62段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of 62 types of vertical turbine blade gravity turbines, and is made of a specific material of solid or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを63段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine in 63 stages and is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを64段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of power generation by gravity of solid type and liquid type, which is equipped with a vertical all blade gravity turbine in 64 stages. 竪型全動翼重力タービンを65段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 65 types of vertical turbine blade gravity turbines, which are made of specific gravity material solid or liquid gravity and coated with lubricating material. 竪型全動翼重力タービンを66段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of 66-stage vertical all-blade gravity turbines, which are made of a specific material of solid or liquid and coated with a lubricating material. 竪型全動翼重力タービンを67段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 67 types of vertical rotor blade gravity turbines. 竪型全動翼重力タービンを68段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of 68 types of vertical turbine blade gravity turbines, and is made of a specific material of solid or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを69段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを70段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with a specific type of solid material or liquid gravity and a specific material for power generation coated with a lubricious material. 竪型全動翼重力タービンを71段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを72段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine in 72 stages and has a specific material of solid or liquid gravity coated with a lubricating material. 竪型全動翼重力タービンを73段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを74段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with the specific material of power generation by gravity of solid and liquid with 74 vertical turbine gravity turbines. 竪型全動翼重力タービンを75段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with the specific material of power generation by gravity of solid material and liquid, which is equipped with a vertical all blade gravity turbine in 75 stages. 竪型全動翼重力タービンを76段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 76-stage vertical all-blade gravity turbine, which is made of a specific material of solid or liquid and coated with a lubricious material. 竪型全動翼重力タービンを77段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを78段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical type moving blade gravity turbine in 78 stages, and which is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを79段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを80段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine in 80 stages, and has a specific material of solid and liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを81段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with the specific material of power generation by gravity of solid material and liquid, which is equipped with a vertical all blade gravity turbine in 81 stages. 竪型全動翼重力タービンを82段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical type moving blade gravity turbine installed in 82 stages, and a specific material of power generation by the gravity of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを83段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   A variety of energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricious material. 竪型全動翼重力タービンを84段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which is composed of a vertical all-blade gravity turbine in 84 stages, and a specific material of solid or liquid gravity coated with a lubricant material. 竪型全動翼重力タービンを85段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 85 stages, and which is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを86段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical type moving blade gravity turbine installed in 86 stages, and a specific material of power generation by the gravity of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを87段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 87 stages and has a specific material of solid and liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを88段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   A variety of energy conservation cycle coalescence engine, which is composed of 88-stage vertical all-blade gravity turbines, which are coated with a lubricating material coated with a specific material for power generation by gravity of solid or liquid. 竪型全動翼重力タービンを89段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   A variety of energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine in 89 stages and has a specific material of solid or liquid gravity coated with a lubricating material. 竪型全動翼重力タービンを90段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with 90 types of vertical bladed turbines with specific critical material solid or liquid gravity and mixed with lubricant material coated with specific material for power generation. 竪型全動翼重力タービンを91段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 91 stages, and is made of a specific material of solid or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを92段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all blade gravity turbine installed in 92 stages, coated with a lubricious material and mixed with a specific material of power generation by gravity of solid or liquid specific gravity. 竪型全動翼重力タービンを93段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   A combination of various energy conservation cycle engines, in which a vertical all-blade gravity turbine is installed in 93 stages and a specific material of solid or liquid gravity is coated with a lubricating material. 竪型全動翼重力タービンを94段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 94 stages, and a specific material of solid or liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを95段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with a specific type of solid material or liquid gravity and a specific material of power generation coated with a lubricating material. 竪型全動翼重力タービンを96段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine with 96-stage vertical all-blade gravity turbine in which a specific material of solid or liquid is coated with a lubricating material and coated with a gravity material. 竪型全動翼重力タービンを97段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   A combination of various energy storage cycle engines with a specific type of solid material or liquid gravity and a lubricating material coated and mixed with a specific material of gravity with a gravity of solid and liquid installed in 97 stages. 竪型全動翼重力タービンを98段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   A combination of various energy conservation cycle engines, in which a vertical all rotor blade gravity turbine is installed in 98 stages, and a specific material of power generation is coated with a lubricating material by gravity of solid or liquid gravity. 竪型全動翼重力タービンを99段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which is composed of 99-stage vertical turbine blade gravity turbine, which is made of specific solid material or liquid gravity and coated with a lubricious material. 竪型全動翼重力タービンを100段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine with 100-stage vertical all-blade gravity turbine in which a specific material of solid or liquid is coated with a lubricating material and coated with gravity. 竪型全動翼重力タービンを101段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engine, which has a vertical all-blade gravity turbine installed in 101 stages, and which is made of a specific material of solid or liquid gravity and coated with a lubricating material. 竪型全動翼重力タービンを102段に設けた比重大物質固体や液体の重力で発電の比重大物質に潤滑性材料を被覆混合した各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engine, which has a vertical all-blade gravity turbine in 102 stages, and has a specific material of solid or liquid gravity and a specific material of power generation coated with a lubricating material.
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