JP2021173279A - Living cost reduction - Google Patents
Living cost reduction Download PDFInfo
- Publication number
- JP2021173279A JP2021173279A JP2020098015A JP2020098015A JP2021173279A JP 2021173279 A JP2021173279 A JP 2021173279A JP 2020098015 A JP2020098015 A JP 2020098015A JP 2020098015 A JP2020098015 A JP 2020098015A JP 2021173279 A JP2021173279 A JP 2021173279A
- Authority
- JP
- Japan
- Prior art keywords
- water
- energy
- tank
- air
- pipe
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
- 238000010248 power generation Methods 0.000 claims abstract description 13
- 230000005484 gravity Effects 0.000 claims abstract 16
- 238000000034 method Methods 0.000 claims abstract 12
- 230000007246 mechanism Effects 0.000 claims abstract 3
- 239000013535 sea water Substances 0.000 claims abstract 3
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 185
- 239000003673 groundwater Substances 0.000 claims description 2
- 239000007788 liquid Substances 0.000 claims 35
- 241000196324 Embryophyta Species 0.000 claims 31
- 239000007789 gas Substances 0.000 claims 30
- QSHDDOUJBYECFT-UHFFFAOYSA-N mercury Chemical compound [Hg] QSHDDOUJBYECFT-UHFFFAOYSA-N 0.000 claims 19
- 229910052753 mercury Inorganic materials 0.000 claims 19
- 239000003507 refrigerant Substances 0.000 claims 15
- 241000282412 Homo Species 0.000 claims 9
- 239000000463 material Substances 0.000 claims 8
- CURLTUGMZLYLDI-UHFFFAOYSA-N Carbon dioxide Chemical compound O=C=O CURLTUGMZLYLDI-UHFFFAOYSA-N 0.000 claims 7
- 230000005611 electricity Effects 0.000 claims 7
- 239000000126 substance Substances 0.000 claims 5
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 claims 4
- 230000008859 change Effects 0.000 claims 4
- 239000003337 fertilizer Substances 0.000 claims 4
- 238000007667 floating Methods 0.000 claims 4
- 229910001338 liquidmetal Inorganic materials 0.000 claims 4
- 230000033001 locomotion Effects 0.000 claims 4
- 239000000203 mixture Substances 0.000 claims 4
- 238000005096 rolling process Methods 0.000 claims 4
- UFHFLCQGNIYNRP-UHFFFAOYSA-N Hydrogen Chemical compound [H][H] UFHFLCQGNIYNRP-UHFFFAOYSA-N 0.000 claims 3
- 235000011089 carbon dioxide Nutrition 0.000 claims 3
- 230000006835 compression Effects 0.000 claims 3
- 238000007906 compression Methods 0.000 claims 3
- 230000007423 decrease Effects 0.000 claims 3
- 239000001257 hydrogen Substances 0.000 claims 3
- 229910052739 hydrogen Inorganic materials 0.000 claims 3
- 238000009434 installation Methods 0.000 claims 3
- 230000000630 rising effect Effects 0.000 claims 3
- 125000000391 vinyl group Chemical group [H]C([*])=C([H])[H] 0.000 claims 3
- 229920002554 vinyl polymer Polymers 0.000 claims 3
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 claims 2
- 229910002092 carbon dioxide Inorganic materials 0.000 claims 2
- 239000001569 carbon dioxide Substances 0.000 claims 2
- 238000006243 chemical reaction Methods 0.000 claims 2
- 238000001816 cooling Methods 0.000 claims 2
- 239000000284 extract Substances 0.000 claims 2
- 239000012530 fluid Substances 0.000 claims 2
- 235000011389 fruit/vegetable juice Nutrition 0.000 claims 2
- 239000011521 glass Substances 0.000 claims 2
- 229910052742 iron Inorganic materials 0.000 claims 2
- 229910052751 metal Inorganic materials 0.000 claims 2
- 239000002184 metal Substances 0.000 claims 2
- 239000003595 mist Substances 0.000 claims 2
- 239000013307 optical fiber Substances 0.000 claims 2
- 239000001301 oxygen Substances 0.000 claims 2
- 229910052760 oxygen Inorganic materials 0.000 claims 2
- 239000004033 plastic Substances 0.000 claims 2
- 229920003023 plastic Polymers 0.000 claims 2
- 238000005381 potential energy Methods 0.000 claims 2
- 230000008569 process Effects 0.000 claims 2
- 238000007789 sealing Methods 0.000 claims 2
- 238000012546 transfer Methods 0.000 claims 2
- 238000009423 ventilation Methods 0.000 claims 2
- 244000020551 Helianthus annuus Species 0.000 claims 1
- 235000003222 Helianthus annuus Nutrition 0.000 claims 1
- 241000238631 Hexapoda Species 0.000 claims 1
- 241001365789 Oenanthe crocata Species 0.000 claims 1
- 208000003251 Pruritus Diseases 0.000 claims 1
- 235000010575 Pueraria lobata Nutrition 0.000 claims 1
- 244000046146 Pueraria lobata Species 0.000 claims 1
- 229910000831 Steel Inorganic materials 0.000 claims 1
- 229920006328 Styrofoam Polymers 0.000 claims 1
- 230000009471 action Effects 0.000 claims 1
- 238000004378 air conditioning Methods 0.000 claims 1
- -1 and if necessary Substances 0.000 claims 1
- 238000013459 approach Methods 0.000 claims 1
- 239000010426 asphalt Substances 0.000 claims 1
- 230000008952 bacterial invasion Effects 0.000 claims 1
- 238000007664 blowing Methods 0.000 claims 1
- 238000009835 boiling Methods 0.000 claims 1
- 239000004927 clay Substances 0.000 claims 1
- 230000009194 climbing Effects 0.000 claims 1
- 238000004891 communication Methods 0.000 claims 1
- 238000010276 construction Methods 0.000 claims 1
- 230000006837 decompression Effects 0.000 claims 1
- 238000009792 diffusion process Methods 0.000 claims 1
- 230000035622 drinking Effects 0.000 claims 1
- 230000000694 effects Effects 0.000 claims 1
- 238000005868 electrolysis reaction Methods 0.000 claims 1
- 238000005516 engineering process Methods 0.000 claims 1
- 238000007710 freezing Methods 0.000 claims 1
- 230000008014 freezing Effects 0.000 claims 1
- 239000003501 hydroponics Substances 0.000 claims 1
- 239000011810 insulating material Substances 0.000 claims 1
- 238000009413 insulation Methods 0.000 claims 1
- 239000010985 leather Substances 0.000 claims 1
- 239000010687 lubricating oil Substances 0.000 claims 1
- 239000008239 natural water Substances 0.000 claims 1
- 239000003921 oil Substances 0.000 claims 1
- 230000002093 peripheral effect Effects 0.000 claims 1
- 239000000575 pesticide Substances 0.000 claims 1
- 238000012545 processing Methods 0.000 claims 1
- 238000005086 pumping Methods 0.000 claims 1
- 239000002990 reinforced plastic Substances 0.000 claims 1
- 239000002689 soil Substances 0.000 claims 1
- 238000005507 spraying Methods 0.000 claims 1
- 239000010959 steel Substances 0.000 claims 1
- 239000008261 styrofoam Substances 0.000 claims 1
- 238000009834 vaporization Methods 0.000 claims 1
- 230000008016 vaporization Effects 0.000 claims 1
- 239000002023 wood Substances 0.000 claims 1
- 238000009360 aquaculture Methods 0.000 description 1
- 244000144974 aquaculture Species 0.000 description 1
- 239000000446 fuel Substances 0.000 description 1
- 229910052710 silicon Inorganic materials 0.000 description 1
- 239000010703 silicon Substances 0.000 description 1
- 235000013311 vegetables Nutrition 0.000 description 1
Images
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/30—Energy from the sea, e.g. using wave energy or salinity gradient
Landscapes
- Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
Abstract
Description
地球環境Global environment
陸上養殖Land aquaculture
エネルギー等のコスト等を改善すること等Improving costs such as energy, etc.
エネルギー等のコスト等を改善すること等。Improving costs such as energy.
そりなどを使うなどする。水などを適切に配置する構造を作るなどする。Use a sled, etc. Create a structure to properly arrange water.
過疎地域でも自立した産業ができる。 Independent industry can be established even in depopulated areas.
Claims (1)
もちろん気体等(気体等と液体等の重力の差でタンク等の内部に設置してある羽等を自転車のチェーン状の装置で回転力に変換する装置の回転力を得る原理)の部分に冷媒(エアコンなどに使うフロンやその代替物HFC等を用いてもよい。)一例としては冷媒を圧縮してそれを直接パイプ等で回転エネルギーに変換する羽等にエネルギーを伝えるように導く方法やいったん圧縮された冷媒をパイプ等で水等の液体が入ったタンク等の内部に通してそこで熱交換を行いヒートポンプの原理で熱を水等(熱を媒介できるものなら形状を問わない)と熱交換するかもしくは外部から別のパイプ等を通して誘導してきた空気等と熱交換を行うなどもできる。そしてある程度熱エネルギーを放出した圧縮冷媒の圧力を回転エネルギーに変えるための羽等の下のほう等で調節弁で調節しながら開放して回転エネルギーを得る。その前のプロセスとしてクーラーのように冷媒の気化熱を使って例えば外気をパイプ等を通じてこの冷媒が入った管等の近くに配管すればクーラーのように空気との熱交換もできる。冷媒の圧縮率が下がるときには周りと熱交換がおこなわれ周りのものの熱が下がる。回転エネルギーに変える装置が入ったタンクの中には水(液体等)を入れてあるとすればこの温度が冷媒の働きで下がるので、地下5メートル程度の中緯度で年間地温が摂氏15℃程度に安定している深さにこの装置を設置しているとすれば地温からの熱で熱を奪われた水等(液体等、冷媒等と反応しにくいものなら形状、形質を問わない)に周りから地熱が加わることでバランスをとることもできる。回転エネルギーを取り出す装置の内部の温度が冷媒との熱交換によって著しく下がるときにはたとえば、地下5メートルで年中摂氏15度程度に保たれているポイントにタンク等を設置してそこに水等(液体等、冷媒等と反応しにくいものなら形状、形質を問わない)を入れて地熱によって内部の水等の温度をコントロールしている(深さによりその季節での地温は変動するが地下では外気温の変化と反比例するという性質を利用して熱エネルギーを安定的に摂取するためタンク等を設置するための深さなどは自由に変えられる)ものからパイプとを通じて回転エネルギーを得るための装置が内部にあるタンクの中とむずび、冷たくなった水等を別の地下等に設置してあるタンク等に入れたり、入れ替えた水は地下5メートル程度などに設置してあるタンクに入れられ地熱によって温められ維持される。冷たくなった水が入ったタンク等の中にパイプ等を設置してそこに暖かい外気などを入れてタンク内の水等の温度を上げてもいいし熱交換して冷たくなった外部の空気はエアコン等として使うためパイプで地上などにあるスペースに加圧ファンなどを使い送ることもできる。としてこの回転エネルギーを取り出す装置があるタンク等の周囲に上記の地温によって温度等が維持された水等をパイプ等を使って周囲を囲むように流して循環させればその熱によって冷媒によって奪われた熱が補給される。 タンクの上等に行った冷媒(気体等)はパイプを通して調節弁や圧力センサーで圧力を調節しながらパイプを通して次の回転エネルギーに変える羽等の装置が内部についた装置に順次移動していく。そうして冷媒はまた最初の圧縮装置へとパイプ等を通して回収され再利用される。 太陽光のエネルギーを集光装置によって集め水等の熱エネルギーに変えるソーラー給湯器のような原理で可能な限り高い温度にした水等(液体等)を回転エネルギーを取り出す装置が入ったタンク等の内部にパイプ等を通じて入れてそこに圧縮により温度が上がった冷媒(二酸化炭素など)を流し込むことでこのタンクの中に入れてある水等(液体等)が沸騰しその力で回転エネルギーを取り出す装置の羽等を動かすこともできる。太陽のエネルギー(太陽光など)などやマグマなどの熱や
図面10や図面11においても解説しているが自転車のクランクやギア等のような部品とその回転を伝えるチェーン等のものの機能(同等の機能を持つものであればベルト等などでもよい)をもちいて回転する輪のような形状つくりチェーン等とバケツ等を連結してチェーンが動くとバケツ等も連動して動く構造にしておく。このような構造体の高い部分と低い部分の高低差が仮に60メートルぐらいだとしてその高いところ付近に来た時にバケツが通る場所に少し接触させてバケツを傾けて中の水等や水銀等などの流動性があるような物質を落としてそれをためておくことができるタンク等も設置しておく。そしてこの装置のクランク等ギア等に電動モーターや水車やその他の動力を用いて回転力を与えると回転してゆく。このような装置の下の部分に水等や水銀等(液体状のものが流動性が高い)をためてけるタンクを用意してバケツ等がそこを通ることで水等や水銀等がバケツ等に充填するようにしたり、あるいはこの回転する通路上のどこかにパイプ等で水等や水銀等(流動性があり比重が高いものなら何でも)を移動させてそこから出る水等や水銀等を蛇口から出る水等をバケツに入れるような形でバケツ等に補給する。上の部分にあるタンク等から水等や液体水銀等をパイプなどを用いて下に向かって落下させてそれでバケツ等で受け止める構造にすることができる。バケツ等には下向きの運動エネルギーがかかりこれには落下距離によって重力により運動エネルギーが与えられる。上部にあるタンクからの落下距離はそれを受け止めるバケツ等との距離を変えることで変更ができる。仮にこの回転が一秒で約2、2メートルの速度でバケツ等がほぼ均等間隔で60個ついておりこのチェーンの演習が約132メートルであればバケツ等は上部タンクに1秒ごとに水等液体水銀等を入れる計算になる。バケツ等には約40リットルになるように水等液体水銀等が下部や補給装置によって入れられると仮定すると毎秒40リットルの水等や水銀等が上部タンクに移動する。上部タンクからバケツ等に毎秒10リットル落としてそれをバケツ等で受け止めるとして上部タンクからバケツ等までの距離が15メートルだとすると、運動エネルギーは2250ジュールと計算上なる。そうすると概算で下向きの力がそれだけチェーン等にかかる。最初にこの装置を回転させていた駆動モーター等の出力を落としてもこのように水等液体水銀等の下向きの運動エネルギーをチェーンに伝えることによって駆動用のモーター等の出力を徐々に低下させていってもこの回転する装置は動くことができる。運動エネルギーは1/2×質量×速度の二乗となるので速度が10倍になると運動エネルギーは100倍になる計算。この装置の上部タンク等から下のバケツ等に向かって落とす水等液体水銀等の量は弁によって調整できるし、装置自体の円周も自在に変更可能なので水等をしたから上部タンクにあげるために最大限効率的に動かすためにこの各所の数値を変動させて目的に応じて最適化することができる。回転に障害になる抵抗例えば下部タンクから水等液体水銀をバケツ等に組むようなプロセスはできるだけ効率的になるように最小の抵抗となるようなバケツ等の通路設計をすることができる。そして上部タンクにある水等液体水銀等をパイプ等を使って60メートル下などに落下させてそのエネルギーを水車等にあてるなどしてエネルギーを伝達してそれで発電機を動かしたりできる。この装置の外側をシールドで囲んだりしてその中の空気を吸引装置で吸い出すことによって内部を真空や低圧状態にして水等や液体水銀等が落下するときの空気抵抗をなくしたり低下させることもできる。このような装置は重力エネルギーを水等や液体水銀等を媒介にして回転エネルギーなどに伝える役目を果たす装置になる。もちろん上部タンクには従来のように揚水ポンプや川の流れ等を受け止めて回転する水車等のエネルギーを使い水等や液体水銀等を移動させることもできる。 上部タンクから水等液体水銀等(もしくは鉄球などでもよい)を時間制御しながら均等間隔で落としたりするために鹿威し(ししおどし、日本庭園でみられる竹等で作ったものを金属等で作り強度を増すこともできる)を開閉弁c1と上部タンクとの間あたりに設置してまとめて10リットルたまったらししおどしが傾くというやり方や、水車を改造するなどして一定量の重さになったら一定の動作をするようにした装置を設置することもできる。水車にある一定の負荷をかければ回転数を制御できたりする。
通常の動力装置を用いるより効率的に動作する装置を構築することができる。A place where a PET bottle originally contained juice in a structure that is covered with a transparent and light-transmitting substance, strong plastic, or connected with a PET bottle (may be a special one) when shielding. From an underground tank installed in a place where water etc. is kept at about 15 degrees (depending on the latitude etc.) throughout the year about 5 meters underground, a pump etc. (if it is underground in a mountainous area, it naturally falls under the pressure of gravity. If the space through which the car or the like passes is close to 15 ° C. and the flow rate of the liquid is adjusted, the cost of the air conditioner of the car or the like can be saved. When depressurizing the space in which a car or the like travels to reduce air resistance and bring it closer to a vacuum state, install pressure-resistant reinforced plastic, glass, etc. on the outer periphery of the space through which the car or the like passes to reinforce it. You can also. Even when water or the like is circulated by a pump, liquids such as water do not suddenly boil even when exposed to sunlight from the outside, so that the pump does not have to be operated frequently, so the energy cost is low. When energy is obtained from solar panels, etc., install solar panels, etc. on the roof of this equipment or in an empty space such as the side surface or lane. In order to cool the solar panel etc., water etc. kept at a constant temperature in the above-mentioned circulating underground tank flows over the panel, or a pipe-shaped structure made of a material that allows light to pass through is nearby. The temperature of the solar panel can be controlled by flowing water of about 15 ° C from an underground tank, etc., or the solar panel can be made waterproof to improve airtightness, and shallow water can be collected in the panel. It is attached to a tub, etc., and water, etc. at about 15 ° C, which is installed about 5 meters underground, is poured there and collected in an underground tank, etc. If the positional relationship is such that natural groundwater flows naturally, it may be flushed and the temperature of the panel is controlled. Using a PET bottle or the like, for example, the drinking spout is cut out and a plurality of rectangular cubes are glued together to construct a structure in which water in an underground tank is put. Using a substance such as a PET bottle that allows light to pass through but does not allow water to pass through, a structure containing water or the like is created with a hollow inside. Then, a solar panel or the like whose temperature is to be controlled can be put in the hollow part or the like. This will increase the amount of power generation by installing similar devices in solar panels installed in homes. If the temperature of the solar panel becomes too high, the amount of power generated will decrease. In addition, in order to efficiently air-condition the space, water or the like of about 15 degrees in the underground tank is used. Since the ground temperature around the underground tank differs depending on the depth, it is possible to install multiple tanks at different depths and mix the water and the like. If necessary, the structure made of PET bottles can be moved by draining water, etc. Since the material is light, it can be done manually, but the ceiling part should be constructed in advance so that it can be opened and closed by motor drive etc. You can also. In the underground tank, a pipe of about 5 cm in length and width (the standard scale can be changed freely) is installed in the underground tank, and a passage is installed around it to allow water to flow. The above-mentioned underground tank water or the like is provided there, and a fan or the like is attached to the end of the pipe to send the wind. When air or the like moves in the pipe by the force of a fan or the like, it exchanges heat with the surrounding water or the like (for example, if it is a thin material such as a PET bottle, heat is easily conducted) and is gradually cooled in the summer. If the length of the pipe is increased to some extent, the temperature from the outlet of the pipe becomes close to the temperature of water or the like from the underground tank. It is cold in the summer and warm when the air is below about 15 ° C. For example, a structure can be made by connecting PET bottles and the like. Fans such as electric fans consume less power, which saves energy. The tube does not have to be straight and may be curved for distance. It is also possible to make it easier to exchange heat when a cold or the like hits by passing water or the like through a thinner pipe through the pipe. To increase the area of contact with the temperature of water, etc. around 15 ° C and the flowing air, passing between the passage and the pipe through which water, etc., which circulates a rod of metal, etc. with high thermal conductivity, is flowing. You can also. A fan or the like can be attached not only to the entrance of the pipe but also to the other outlet or in the middle to improve heat exchange efficiency. This device can be installed indoors, but it can also be installed at a constant ground temperature of about 5 meters underground. Air is taken in and out with a pipe. If air is sent into the pipe through a pipe so that the ground temperature around 5 meters underground is about 15 ° C, the temperature will be the same when the air sucked in the above-ground part goes around the underground and goes out from the outlet of the pipe again in the summer. It is the same regardless of the season even in winter when the soil temperature is close to 15 ° C. Water etc. is flowing on all sides of the pipe or a specific part, but in the case of a two-tiered structure The lower part is maintained by gravity even if the ceiling part is not blocked, so it is not necessary to attach the ceiling part Because of this, water etc. comes into direct contact with air etc. and heat exchange efficiency increases. When the ground temperature of most of the installation locations around the pipe is about 15 ° C, the temperature of the original air etc. approaches 15 ° C. Compressed air is used when hot water such as hot springs or hot water artificially boiled in a boiler is used for air conditioning of each home or facility. First, hot water is poured into a space made of PET bottles, etc., and in the above method, heat is exchanged using the temperature of about 15 degrees underground to bring the temperature of air etc. closer to 15 degrees. If you put hot water etc. instead of the degree, it will reach that temperature and keep it warm when you send it, so put it in a connected kudzu such as a PET bottle and compress it into the space surrounded by it ( Or, change it depending on the situation such as the degree of ventilation). The above space for blowing warm air, etc. is installed underground or above ground, but considering the cost of digging underground, such as when the ground is extremely cold, use water from a tank of about 15 degrees below ground and about 5 meters below ground. You may use the heat insulation system. Since the underground tank or the like has a depth that varies depending on the time according to the depth, it is possible to prepare a plurality of tanks and mix water or the like. If necessary, the outer circumference of the device that sends air, etc. made from this PET bottle or the like is covered with a heat insulating material (such as styrofoam that has a heat insulating effect) to improve efficiency. It is also possible to send cold air or the like. It is possible to circulate or temporarily hold water, etc. that uses the ground temperature, such as about 5 meters underground, through a thin pipe near an object, etc., whose efficiency increases when the temperature is close to a certain level, such as a solar panel. In addition, after placing it in such a state, connect a PET bottle etc. to the outer peripheral part etc. in order to control the temperature etc. by eliminating the influence of the outside air etc. It is installed in a structure that can control the temperature inside the structure by pouring water etc. that uses the ground temperature such as 5 meters underground into the structure made of the material that was made. It is also possible to prevent the solar panel and the like from becoming excessively hot. Water can circulate or stand still in a structure made by connecting PET bottles, etc., and the flow rate of water, etc. can be changed by adjusting the pump. Water, etc. that has passed through PET bottles, etc. is also underground. Returning to the tank, the temperature is controlled by the ground temperature. Multiple underground tanks may be installed depending on the depth. Circulating water or the like to control the temperature of the solar panel or the like can be passed through a finer pipe, or such a pipe may be installed in a device such as a solar panel in advance. Water from an underground tank or the like is poured into a pipe or the like made of a material that allows thin light to pass through, and is placed around a solar panel or the like to be used for temperature control. Take waterproof measures for pipes, solar panels, etc. to prevent water from entering the electrical machinery. It is possible to make water etc. flow through it with a thinner material made exclusively from the beginning instead of a PET bottle. For example, the temperature of a solar panel or the like is controlled by applying the outer circumference of the solar panel or the like with a wall of thin water or the like having a heat of about 2 cm. When water in the underground tank is raised to a certain height using a pump or the like, it flows around the solar panel through a pipe by the force of gravity and returns to the underground tank. It is also possible to lower the temperature by spraying water such as mist (not necessarily mist) on the upper part of the solar panel etc. At this time as well, the water is collected and circulated using the water in the underground tank. You can also do it. Structures such as other PET bottles are constructed so that they are divided into multiple layers, such as the function of flowing fertilizer into the space constructed with PET bottles and collecting it, and the layer that allows water, oxygen, etc. to soak underground. You can also do it. If the upper part is covered with a similar structure to create a sealed state, fertilizers, pesticides, etc. will not be scattered to the outside. Costs can be reduced by reusing fertilizers. When taking in outside air, you can open it with a door on the top, or you can use a fan to let in the wind, or you can make a door for humans to enter. With such a shield, it is possible to prevent the diffusion of fertilizer used for agriculture and the like to the outside of the shield. In the above space constructed using PET bottles, etc., a tunnel-shaped space is provided so that humans can barely pass through it, and rails and tires are used to pull in trolley-shaped objects. In hydroponics, the solution can be poured inside the space, and in the case of plant cultivation, a tub or the like that can hold water of the size prepared according to the growth of the roots is placed on the trolley and the space It can also be moved inside. Plants can be moved by placing them on pallets using rails, etc., so they can be moved to any location by laying rails in a sunny place or rolling them with tires. When the plant is hydroponically cultivated, the part above the root of the plant can be moved by the upper trolley or the like, so that the pulling force is small. Similarly, a PET bottle or the like can be used to create a space for a car or the like, and the temperature of the internal space can be controlled by using circulating water or the like. The vehicle can be parked and a break can be taken inside. On top of that, it is also possible to cultivate crops by placing a structure made using PET bottles for growing crops. Normally, when air is compressed industrially, an electric compressor etc. is used, but it is used as the power of the compressor by using the energy of gears that move by hydraulic power for the power of the compressor or by transmitting the rotational energy of the windmill with gears. do. Then, a tank that stores compressed air is installed in a place with a constant ground temperature of about 5 meters underground, or it is blown into water in a tank installed 5 meters underground to raise the temperature to 15 ° C. I'll give it a try. By using natural energy such as hydraulic power as the power of an air compression compressor and storing it in a cylinder installed underground, etc., it can be taken out at any time like a battery and used to move gears. When compressing air etc. with a compressor etc., once cooled in an underground tank etc. is compressed to adjust the humidity, or air etc. is stored underground to lower the humidity. It is also possible to lower the temperature of a tank containing compressed air, etc. underground. Even if it is a large tank, if it is underground, there is no problem with the installation location. It is highly efficient if the compressed air is adjusted in temperature, humidity, etc. using the above mechanism and the air or the like is flown from the facility to the general household through underground pipes or the like. Instead of storing electricity, it is stored as compressed air or the like (it may be in the form of gas or in a state like dry ice). It is also possible to install a water wheel-shaped object beside a river or the like. If the sea wave is a ria coast, the tsunami will rush to a high place, so such a structure is artificially created and the seawater is brought to a place 10 meters or more higher than the coastline by the power of the sea wave. Then, by accumulating it, this time, it is used as a power source for turning a hydroelectric turbine that uses gravity to generate electricity or for turning a compressor such as air. It is useful for human life by obtaining a large amount of potential energy of seawater semi-permanently by using the energy of sea waves. A method of storing compressed air in a cylinder or the like by such a method and moving the cylinder to a place such as 20 meters underground or deferring the cylinder with a diameter of 20 meters is also conceivable. Then, prepare a water tank or the like installed underground or the like and filled with water or the like. If a rotating wheel or the like is installed there and compressed air is emitted from below, the wheel will rotate due to the energy at the time of ascent. The deeper this water tank is, the more wheels and the like can be installed, and the buoyancy provides energy for the water turbine and wheels to rotate. It is very efficient because it can use the rotational energy of the water wheel and wheels to move the compressor to create compressed air and move the generator. Set compressed air (gas), dry ice, and Daisei gas (Omasa gas, HHO, GAS, etc.) at a deep point where the water pressure of a vertically long tank filled with liquid water, etc. is applied. Then, heat from the chemical reaction of electricity or chemical substances is applied to ignite Daisei gas (a mixture of hydrogen and oxygen may be used separately), and the heat causes dry ice to be expected and expands, and compressed air also Similarly, an upward kinetic energy is generated with respect to water pressure (gravity), and this is applied to a water wheel or the like to rotate the water wheel or the like. It recovers that energy and runs a generator. In order to improve the efficiency when the water turbine rotates, the wings of the water turbine will be movable and can be opened and closed. Then, when it is pushed by a gas, it opens and receives the kinetic energy, and it is possible to prevent the wing of the water wheel from hitting the liquid and becoming resistance and slowing down the rotation speed as much as possible. A structure is also conceivable in which the wing part opens and closes but does not close completely and opens slightly, or an object that has buoyancy even when completely closed is attached to a part of the wing and opens slightly due to buoyancy in a specific direction. The water flow and the air flow may be controlled by allowing air or the like to enter and spread the air, or by attaching a plate or the like to a specific part of the tank so that the air on the blades of the water wheel of the tank can easily collect. The shape of the wings is such that if a water wheel of this shape is installed in a tunnel or the like where there is no energy for the gas to rise such as air and water pressure is applied, the wings will open where it is pushed by the water flow and close when the pressure of the water flow etc. weakens. Will be. Some hydroelectric power plants such as large-scale dams have a head of 100 meters or pipes of hundreds of meters, but if the propeller for hydroelectric power generation is attached to the downstream part, the energy of the water flow can be sufficiently recovered and the turbine of the generator can be used. Because it is not possible to turn and a loss occurs, the head is about 10 meters and it is dispersed in a thinner pipe-shaped tunnel and tube. Etc. are installed. By doing so, the potential energy of the water stream can be efficiently recovered. Also, when compressed air is ejected from a deep place with high water pressure, when the water turbine is rotated by the force of the air climbing up, the water turbine is rotated clockwise by devising and designing this water tank and tank. When compressed gas or the like is ejected to a portion around 1 o'clock, deceleration of the propeller, water turbine, etc. due to water pressure can be suppressed. Since the compressed gas or the like is ejected from the direction of 6 o'clock or the like, the force of rotating clockwise is always continuously changed, and the energy of the compressed air, the gas or the like, the buoyancy force due to the difference in density, etc. are converted into the rotational energy of the water wheel or the like. When injecting compressed gas, etc. into the shaft of a water turbine or the like by making it hollow, a stuffing that is caught at the position of temporary or 6 o'clock is installed, and the hole of the shaft is caught by it and the door opens and the gas When the door that spouts out comes to a position where it does not get caught, it can be closed by force such as a spring, or gas etc. can be passed through the hollow part in the shaft and the cover can be covered with a cap made of metal etc. A structure can be created in which gas can be ejected when the gas outlet of the rotating shaft comes to a specific position when a specific part of the cap has a hole, and the ejection of compressed gas is linked to the position of the water turbine. It is also conceivable to control the valve so that the compressed gas is emitted only when the vehicle comes to a specific position. The shaft part that transmits energy such as a water wheel can be extended sideways as it is to improve the airtightness so that water does not come out from the water tank and tank, and it can be passed to the part where there is no water such as tank, or once inside the tank using gears etc. When the rotation is transmitted to the shaft that changes direction and extends upward to reach a height such that it can come into contact with the outside air at the upper part of the tank, the energy can also be transmitted to the gear or the like to be used as a power source or the like. A number of water turbines, etc. can be connected and installed in the vertical direction. There are various ways to extend the tank deep underground and to raise it above ground. It is connected by a belt or the like to transmit the rising energy and buoyancy in water such as air, and is supported at some place (the angle changes depending on the resistance to receive the buoyancy by something like a bicycle chain). It is also possible to use a plate or the like (although the angle of the plate does not necessarily change due to resistance or the like due to the installation cost). Further, the energy obtained by the buoyancy by this method is connected by a shaft and used as upward kinetic energy to lift water or the like and be used for pumping or the like. It is also possible to divide these by 10 meters or the like, adjust the water pressure or the like, and connect a number of them in the vertical direction. It is also possible to efficiently utilize the rising energy of the injected air or the like by reusing the air or the like by using a structure in which the air or the like flows from the lower structure to the upper structure again by a pipe or the like. The energy or the like associated with the rise of air or the like in each structure can be converted into driving energy or the like by a shaft or the like. As for water, etc., since the air, etc. of this device comes up and the water, etc. is in a place where it comes into contact with the standby such as on the ground, it is possible to pump them up. It is possible to carry water or the like upward along the rotation by using a similar structure such as a bicycle chain. By stacking such devices in a number of stages in the vertical direction, it is possible to efficiently utilize the rising energy of air or the like (which may be carbon dioxide or the like) and convert it into energy to control the water pressure. Instead of releasing air to the outside, it is collected in a tank and reused. After putting compressed air etc. once, it is possible to attach a cover etc. to the contact surface with the atmosphere so that it does not leak to the outside, and if necessary, install a pipe etc. to let the compressed air escape to the atmosphere etc. can. A sensor or the like that detects pressure can be provided on the path connecting the compressed air or the like, and a valve or the like that opens and closes in conjunction with the sensor or the like can be provided to optimally control the pressure at each part where the air or the like flows. The valve that opens and closes may be an electronically controlled valve or an analog valve that opens and closes according to pressure with a spring or the like. The devices can be connected horizontally instead of vertically, or they can be made smaller. Of course, such a device can be attached to a ship or the like to provide propulsion. In order to use energy efficiently, once move water etc. to a high position such as 60 meters above the ground by a method such as a pump, an elevator, a vehicle, etc. with the above buoyant force intervening, and then turn the pipe etc. downward. Water is dropped and the kinetic energy is used to power the propellers for power generation. Of course, this energy can be used in various ways as power. If such a device is loaded on a ship, it can generate electricity or directly reduce propulsion energy. Even if you don't use pipes, a certain amount will fall to a limited point. It can be pumped up using the principle of this device. Since the kinetic energy increases in proportion to the square of the moving speed of the object, energy can be obtained efficiently. At a height of about 60M, the kinetic energy is about 625 times that of a speed of 1M / S. A considerable amount of power can be generated even at 40 L / s. Energy is efficiently increased by vertically falling water and the like. Efficiently increase the energy at which substances move and use it as power for generators and the like. (For example, a turbine for hydroelectric power generation is turned.) A baseball ball containing iron may be used. When transferring energy from a large number of balls to a turbine for power generation, for example, the balls roll on the rails so that the balls fall on the pipes for regular fall at the upper position, and the flow is further flowed with a stopper such as an open / close type. You can also control it. By making it into a ball shape and providing a slight inclination, it can be easily moved by gravity without power. Prepare multiple pipes on which balls fall to receive energy, for example, make it possible to transmit energy such as balls independently to turbines, etc. For example, each of them does not have wings such as water wheels in a horizontal row. By slightly shifting the position, energy such as a ball can be efficiently transmitted to wheels, a water wheel, a turbine, and the like. The return commission device, etc. that can be collected at the upper position is mechanically adjusted and controlled so that the movement of the ball controlled at the upper drop position and the rotation of the lower turbine, etc. are most efficient. If it is water at the lower position, make sure that the water collects in a certain place, and if the bucket or the like that moves mechanically from there moves upward, the water or the like moves upward. A ball-shaped object also moves to a certain place by gravity or the like, or if the direction is controlled by a lane or the like, the ball or the like moves upward according to the movement of the machine like a batting machine. The ball or the like can be covered with an impact-resistant material such as rubber or leather to maintain its strength. When installing, for example, using natural terrain such as mountains and valleys, if there is spring water, it is possible to reduce the cost of building a large-scale facility from scratch. It is also possible to use an existing building or modify a part of the edge. When a certain amount of spring water is boiling from the vicinity of the mountaintop, it is possible to use a pipe or the like to pull the water to a specific point while maintaining the altitude. If the amount of water is small, it can be pumped up using power, etc., and the water can be carried from below and reused. Even if the difference between the top of the mountain and the lowlands in the vicinity is 50 meters, the original altitude of the mountain is high, so only keeping that part at about 50 meters may require less foothold. There are also cases where it is easy to install pipes, etc. in the mountains, etc., where people do not usually enter. It is also possible to make a stand or the like that supports pipes or the like by using scaffolding such as wood or concrete. Hydroelectric power generation such as dams collects water that has once flowed down from the surrounding mountains, etc., and uses the height of the water channel below it to obtain energy, etc. It is possible to obtain high energy while keeping costs down. If the lowland part is dug down and a generator or the like is placed underground, noise or the like can be avoided and the height difference can be widened. When dropping water etc. downward for power generation etc. with a pipe etc. Connect a pipe etc. that can send compressed air etc. to the upper part of the pipe etc. The inner pipe bundled into a structure in which multiple thin pipes are bundled is made with a number of holes for ventilation, and compressed air is sent from the high part of the pipe to water, etc. in the pipe. You can also make it fall smoothly when it falls. If there is no spring water, you can use it by carrying a certain amount of water or collecting rainwater. It is also possible to move the vehicle efficiently using the above-mentioned structure that slides on the cooled ice, etc., and the rails, etc. so that the vehicle can be moved upward after accelerating using gravitational energy, etc. or the engine to some extent. If you make it, you can get the energy required to move water etc. to a high position by accelerating with gravity, so you can suppress the energy cost required for propulsion power. Of course, such a device can be attached to a ship or the like to provide propulsion. The energy required for cooling can be saved by grounding a tubular tunnel there using the natural providence that the temperature around 5 meters underground in the mainland of Japan is maintained at about 15 degrees throughout the year. Alternatively, when this structure is grounded on the ground and cooled, it is possible to cover the outer circumference of the tube with liquid water, etc., and if the outer circumference of the tube is made of plastic, glass, etc. that allows light to pass through, the scenery can be seen from inside the vehicle. You can also see it. It is also possible to run a ship, etc. that is sealed inside the ship by putting water in a similar tunnel, etc., and improve the energy efficiency during movement by creating a vacuum inside the tunnel (anything that can run inside the tunnel, etc. can be applied. ). Energy costs can be reduced by adopting the same structure for cars, etc., even if they are not large ones such as trains. Increase the certainty of automatic driving of cars. By connecting a car or the like to a trolley or the like installed on the same platform, the weight of the car or the like is mainly received by a sled to reduce rolling resistance. Even on the current road, asphalt of the road using pipes etc. to put water etc. in a tank installed 5 meters underground at the bottom of the road or passage to prevent freezing and lower the temperature of the road surface in summer. By circulating it 10 cm below (as a guide), the road surface, etc. will not freeze or generate excessive heat. It is also possible to improve the cooling efficiency in summer by allowing circulating water or the like to flow around the sled part with a pipe or the like. Create a futon-sized space (the size can be changed to be larger or smaller) using a PET bottle, etc., and keep the temperature in the space so that it will be cool in the summer and will not freeze even in the winter. Water from a tank or the like installed about 5 meters underground is put into the inside of a PET bottle or the like through a pipe, and the PET bottle or the like is connected so that the water circulates and returns to the tank. In order to make an emergency stop of a train or the like, a pipe or the like is provided at the lower part of the train running line, and oil or the like (or a gas or the like that has been considered as clay) is poured into the pipe or the like. Then, a hole is made in the upper part of the pipe, and something like a stake is dropped from the train or the like and hooked there. In places where piles etc. have fallen, it is possible to slow down the speed of trains etc. while increasing the pressure inside the pipes by contacting with round plates etc. made at the very limit of the pipes etc. so that the pressure does not escape like an air gun. .. If you have multiple pipes installed and there are multiple stakes for trains, etc., first stake one stake (a rod-shaped object for hooking the vehicle etc. to the outside, etc.) and then the second and third trains. The braking force applied to the vehicle can be adjusted. It is possible to make holes in the pipe to release the pressure, and when the pressure reaches a certain level, the stopper or the like will come off and the pressure will be suddenly applied too much to prevent the pipe from breaking. By arranging such structures on the roof of a house in a way that cools solar panels, etc. by connecting PET bottles, etc., and letting water etc. flow into it or storing it there, the inside of the house building, etc. You can also control the temperature of the. For water, etc., install a tank, etc. at a ground temperature of about 15 degrees Celsius throughout the year, about 5 meters underground, and circulate the water. The flow of water etc. can be stopped for a certain period of time such as while the temperature changes on the roof etc. A structure made of PET bottles etc. (it does not have to be a PET bottle separately) is embedded under the roof tiles etc. It can also be designed as. You can prepare multiple underground tanks and connect them to different depths to finely adjust the temperature, or if you can use natural cold spring water or hot spring water, use a pump etc. as it is. It can also be shed. In winter, it is possible to prevent snow from accumulating on the roof. Further, if water is poured over the structure, the outer surface of the structure can be cleaned. It is used that the temperature is kept at about 15 ° C all year round at about 5 meters underground, and that the temperature changes according to the underground depth. On slopes of mountains, etc., determine the depth according to the required ground temperature such as about 5 meters underground or a little shallower depth, and put water etc. in advance in a tank composed of PET bottles etc. and make it with the PET bottles etc. shown above A structure for controlling the temperature of air and the like is constructed. We will build a PET bottle, etc. that can control the temperature of the air by providing a space inside that allows the air to pass through. Then, the air or the like is connected to a space where plants or the like composed of PET bottles or the like installed on the ground or the like grow through a pipe or the like made by using a PET bottle or the like. The outside air is taken in from a specific intake and circulated to the underground space and the space for growing plants. It is possible to shut off the outside air and circulate a dedicated gas, or to purify the air by using an air filter or the like in the outside air intake part. It is also possible to prepare a plurality of underground tanks, one at a high position and one at a low position when viewed from a structure for plant cultivation, etc., by utilizing the difference in altitude of the mountain. By doing so, it is possible to reduce the cost related to air circulation by naturally causing convection by using the temperature difference with the outside air, and if necessary, install a fan driven by a motor etc. to cultivate the air etc. in plants etc. Pour into the space. The plant cultivation space can be designed so thin that it is impossible for humans to stand and pass through, so that the space can be maximized. It is also possible to put a pallet on which plants and the like are set on a trolley and put it in and out of the cultivation space using tires and rails. Instead of sunlight, LEDs or other elements that convert heat into light (announced by Kyoto University, etc.) can be used, or sunlight can be drawn into spaces such as plants by using mirrors or optical fibers. If the heat applied to the conversion element affects the plants, etc., a pipe-shaped device, etc. can be set between them to circulate water there to cool the plant cultivation space. Since the area around the building is constructed of PET bottles and the like, it is possible to prevent excessive temperature fluctuations by circulating water or the like having a constant temperature such as 5 meters underground. In a system that uses the underground temperature, the air adjusted by the underground temperature is circulated from the underground space to the space for plant cultivation, etc., and the water stored about 5 meters underground is also circulated because it is about 15 degrees. You can let it. The plant cultivation space can be sized to accommodate humans and can be used for purposes other than plant cultivation. The plant cultivation space is separated from the outside world by a structure made of PET bottles, etc., and in order to control the temperature, humidity, etc. in it, the air etc. adjusted by the ground temperature is cultivated from the underground structure using the ground temperature. You can move it to the space through a pipe etc., but at that time you can move only the air, or if you move the water with the air and pour the water into the place where the juice of the PET bottle enters, it will also grow plants. It is also possible to control the temperature of such spaces. In some cases, only water can be circulated and only air can be circulated. If the cultivation space for plants is designed to be long and slender so that humans cannot enter it, the space can be effectively used and the cultivation space for multiple plants can be stacked on the upper part. From the plant cultivation space to the work place for humans to care for plants, set a long and narrow tunnel made of similar PET bottles underground or above ground on a rail or something with plants on a trolley. Sometimes pull it with an electric tow truck or pull it with a winch to move it. And if the workplace is also sealed so that the work can be done while being shielded from the outside world, it is possible to prevent events such as bacterial invasion from the outside and seed crossing. Since the size of the space for plant cultivation etc. can be changed, make it a size that humans can enter and work there, or if you install a solar power generation system in that space, you can control the temperature of the solar panel and generate power etc. Can also be done efficiently. Based on these inventions, it will be useful for a society where services can be exchanged in a form that allows communication. A person who agrees with the inventor to operate the service network, etc. for the continuation of the service while mutually accommodating services in order to use the invention technology as basic collateral for rational social construction is entrusted to the inventor by contract. Have them manage it. As an application of the above method of dropping water vertically to power the generator below, a coil is installed around the path such as a lane where magnets processed to roll instead of water are dropped. The lane is used to generate electricity and roll to a certain place based on gravitational energy, and the gears, shafts, etc. are moved by the power using the compressed air shown above. It can also be returned to the upper position. When you reach the upper position, you can use gravitational energy to roll over the upper part of the lane, go to the lane that connects downward, and then fall again. A certain amount of space is provided in the upper part or near the drop point to store the magnets of the rolling mechanism, etc., and if it is controlled by a stopper that opens and closes with electricity etc. and released, gravity etc. It is also possible to keep going on the rolling rail. This can be done in the same way with a device that drops the water, etc. shown above vertically and transfers the energy to the wings of the generator below to generate electricity, etc., and provide tanks at the top, bottom, etc. It is possible to store water, etc. in the water, and if necessary, drop the stored water, etc. to use it as energy, store natural water, etc. there, or use spring water, etc. A pump can be used for various purposes such as raising water to the upper part. When connecting PET bottles, etc. and flowing temperature-controlled water, etc. from an underground tank, etc., to control the temperature, etc. of the space provided inside, etc., raise this PET bottle, etc. The space per unit area increases by making the structure multi-stage in the direction. The space can be used as a plant cultivation space, etc., and the work place (such as when the place where manual work such as thinning is performed is located below the space) can be connected to the bottom by using a rail or the like as a spiral place. Use an elevator to move the plant and the dolly on which it is placed from a high place to a low place. Rails are also drawn on elevators and the like, and the rails can be easily switched in the course and direction so that the directions can be freely changed, and the rails can be freely rearranged like a puzzle. Elevators, etc. can go to the edge of the growing space, and chairs, etc. are installed on the elevators, etc. and stop on each floor, where the rails, etc. provided on the elevators are connected to the rails, etc. in the cultivation space, and plants etc. are placed on them. It is also possible to move it around a chair or the like on which a human is sitting by using a trolley. Humans can also work while sitting. It is also possible to enclose this tall multi-stage structure with light-transmitting vinyl or the like to seal the inside. It is a simple one-stage structure, and the inside can be easily sealed by covering it with a structure using vinyl etc., and if multiple airlock doors etc. are installed at the entrance, it will be with the outside world. Can be blocked. The inside of a structure made of PET bottles or the like can be sealed by sealing it so that outside air does not enter. Elevators and the like can also be installed inside the space of a closed structure. Since the plants inside are blocked from the outside world, seeds do not mix and insects do not come. When a space is provided inside a structure that is processed and connected to a PET bottle, etc., and plants, etc. are put in it and grown, the structure is surrounded by vinyl, etc. that allows light to pass through to block it from the outside world. Then, when a human goes to work near the structure, he / she moves a part of the structure such as a PET bottle so that he / she can reach the inside of the space, and then moves it again after the work. It is also possible to restore the structure (parts, etc.) made by processing a PET bottle or the like. If the inside of a structure constructed of PET bottles is isolated from the outside air and used for plant cultivation in the space inside, put a dolly for moving plants, etc., and the dolly etc. will be a chain etc. It is connected in such a way, and the power of the winch and a part of the dolly are powered by using tires and rails. In order to efficiently take in the sun's light inside the space, the method of transmitting the sun's light with a light collector (sunflower, etc.) or optical fiber, or linking the light with a movable mirror that can freely change the angle, etc., is the target space. You can use the method of taking it to the end or a combination of these. There is a device called ▲ R ▼ shown in the drawing as a concept including at least the functions from ▲ 1 ▼ to ▲ 7 ▼ and other functions shown below in part, in whole or in part. (1) ▼ Upward energy is generated in the tank by utilizing the difference in gravity between water (liquid, liquid metal, liquid mercury, etc. can be used, of course) and air (gas, etc.). (2) In principle, connect a device with an openable and closable splash to convert the upward energy generated in the tank into rotational energy, and a chain-shaped and crank-shaped bicycle. (3) This device for transmitting rotational energy is installed inside the tank. (Support with columns so that it does not wobble) ▲ 4 ▼ Water (liquid, etc.) can be used in the tank from the outside, and hoses such as pipes can be used. (5) Fill the tank with compressed air (gas, etc.) and eject it so that it hits the blades of the rotational energy transfer device using a pipe while controlling the pressure with a sensor. Even if it is not compressed air, it is possible to perform this role with a gas such as hydrogen produced industrially. ▲ 6 ▼ Drain water (liquid, etc.) downward from the top to the bottom using a pipe or the like. The energy is used to power a generator (such as turning gears) or as another energy source. This energy such as water can also be used as power for a device for compressing air or the like. This energy can also be used as power for an electrolysis device for producing hydrogen and the like. (7) The water, etc. (liquid, etc.) that has gone down is stored in a tank, etc., and the difference in gravity between the liquid and gas is converted into rotational energy and brought up for reuse. Of course, liquid metal, mercury, or the like can be used as the liquid such as water to be dropped. It is also possible to eliminate air resistance by sealing the entire device with a strong wall or the like and creating a vacuum state. In order to efficiently create a compressed gas, a cylindrical tube and a device that moves from top to bottom and acts like an efficient plug that can move and compress without leaking air or the like are used. A device like this line surrounds a cylinder with a part made of rubber such as a floating ring that can be closely attached by air pressure, etc., and the air pressure etc. swells the part of this floating ring due to air pressure etc. It can be prevented from leaking. Lubricating oil or the like can be sprayed or the like around the advancing part of the part where the floating ring-shaped rubber or the like is in close contact with a nozzle or the like extending from the inside of the stopper or the like in order to improve the slip. A tank or the like is installed on the device that acts as a stopper, and a heavy object such as water is put in it and moved downward by its weight, or for hoisting to move the device that acts as a stopper upward. Wires and winches will also be installed. Connect the chain downward and connect it to an external gear etc. in a situation where gas cannot enter and exit through water etc., drop water etc. (liquid etc.) from the upper part through a pipe etc. and turn the gear with that energy It is also possible to pull the device, which acts as a stopper downward, downward. Since the device acts as a stopper, etc., when moving it upward, the air inside the floating ring-shaped rubber, etc. is evacuated and deflated to release contact with the columnar pipe, and it can be pulled up smoothly or as a weight. Open the door and valve of the tank below to drain the water, and move it to another tank using a pipe or the like. The water is reused by taking it up with power that converts the difference in gravity between liquid and gas into rotational energy and returning it to the tank above. In order to eliminate air resistance, the pipe on which liquid metal, liquid metal, etc. falls can be decompressed or evacuated. For that reason, assuming that there is a device that applies the force of the flow in the pipe through which the liquid etc. passes to the turbine of the power generation device to power the power generation, etc. It is also possible to cover it with a certain material, steel, etc. so that the movement of liquids, etc., and the device of a generator, for example, can maintain its vacuum or depressurized state. Create a structure that is isolated from the outside like a submarine, first put piping equipment and power generation equipment in it, and then provide the only pipe that can ventilate the outside, and then compress the air from there By sucking out with, the place where humans and internal devices of a structure such as a submarine enter is in a vacuum state or a decompression state.
Of course, the refrigerant is added to the part of gas etc. (the principle of obtaining the rotational force of the device that converts the wings etc. installed inside the tank etc. into the rotational force by the chain-like device of the bicycle due to the difference in gravity between the gas etc. and the liquid etc.) (CFCs used for air conditioners and their substitutes such as HFC may be used.) As an example, a method of compressing a refrigerant and directly converting it into rotational energy with a pipe or the like or guiding the energy to be transmitted to a wing or the like. The compressed refrigerant is passed through a pipe or the like through the inside of a tank or the like containing a liquid such as water to exchange heat there, and heat is exchanged with water or the like (any shape as long as it can mediate heat) based on the principle of a heat pump. Alternatively, it is possible to exchange heat with air or the like that has been guided from the outside through another pipe or the like. Then, the pressure of the compressed refrigerant that has released heat energy to some extent is released while being adjusted by a control valve at the lower part of a wing or the like for converting into rotational energy, and rotational energy is obtained. As a process before that, if the heat of vaporization of the refrigerant is used like a cooler and the outside air is piped near a pipe or the like containing the refrigerant through a pipe or the like, heat exchange with air can be performed like a cooler. When the compressibility of the refrigerant decreases, heat exchange is performed with the surroundings, and the heat of the surroundings decreases. If water (liquid, etc.) is contained in the tank containing the device that converts it into rotational energy, this temperature will drop due to the action of the refrigerant, so the annual geothermal temperature will be about 15 ° C at a mid-latitude about 5 meters underground. If this device is installed at a stable depth, it can be used for water that has been deprived of heat by the heat from the geothermal temperature (regardless of shape or trait as long as it does not easily react with refrigerant, etc., such as liquid). It can also be balanced by applying geothermal heat from the surroundings. When the temperature inside the device that extracts rotational energy drops significantly due to heat exchange with the refrigerant, for example, install a tank or the like at a point 5 meters underground and kept at about 15 degrees Celsius all year round, and water etc. (liquid) there. The temperature of the water inside is controlled by geothermal heat by adding geothermal heat (regardless of shape or trait if it does not easily react with refrigerant, etc.). The depth for installing a tank, etc. can be freely changed in order to stably ingest heat energy by utilizing the property of being inversely proportional to the change in the temperature. The water that has become itchy or chilled in the tank is put in a tank installed in another underground, etc., and the replaced water is put in a tank installed about 5 meters underground, etc. due to geothermal heat. It is warmed and maintained. You may install a pipe etc. in a tank etc. containing cold water and put warm outside air etc. in it to raise the temperature of the water etc. in the tank. Since it is used as an air conditioner, a pressure fan can be used to send it to a space on the ground with a pipe. If water or the like whose temperature is maintained by the above-mentioned ground temperature is circulated around a tank or the like having a device for extracting this rotational energy by using a pipe or the like so as to surround the surroundings, the heat will be deprived by the refrigerant. The heat is replenished. Refrigerant (gas, etc.) that has been applied to the upper part of the tank is sequentially moved to a device with an internal device such as a wing that changes the pressure to the next rotational energy through the pipe while adjusting the pressure with a control valve or pressure sensor through the pipe. The refrigerant is then recovered and reused through a pipe or the like to the first compression device. A tank containing a device that extracts rotational energy from water (liquid, etc.) that has been heated to the highest possible temperature based on the principle of a solar water heater that collects solar energy with a concentrator and converts it into heat energy such as water. A device that puts in a pipe or the like inside and pours a refrigerant (carbon dioxide, etc.) whose temperature has risen due to compression into it, so that the water, etc. (liquid, etc.) contained in this tank boils and takes out the rotational energy with that power. You can also move the wings of the energy. The energy of the sun (sunlight, etc.) and the heat of magma, etc.
As explained in FIGS. 10 and 11, the functions of parts such as bicycle cranks and gears and chains that transmit their rotation (belts, etc. may be used as long as they have equivalent functions) are used. Make a shape like a rotating ring. Connect a chain or the like to a bucket or the like so that when the chain moves, the bucket or the like also moves in tandem. Assuming that the height difference between the high part and the low part of such a structure is about 60 meters, when you come near the high part, make a little contact with the place where the bucket passes and tilt the bucket to tilt the water, mercury, etc. inside. Also install a tank, etc. that can drop and store fluid substances. Then, when a rotational force is applied to a gear such as a crank of this device by using an electric motor, a water wheel, or other power, the device rotates. A tank for storing water, mercury, etc. (liquid ones have high fluidity) is prepared in the lower part of such a device, and a bucket, etc. passes through the tank to allow water, mercury, etc. to pass through the bucket, etc. Or move water, mercury, etc. (anything that is fluid and has a high specific gravity) with a pipe or the like somewhere on this rotating passage to remove water, mercury, etc. from there. Replenish the bucket, etc. by putting the water, etc. from the faucet into the bucket. It is possible to make a structure in which water or liquid mercury or the like is dropped downward from a tank or the like in the upper part by using a pipe or the like and is received by a bucket or the like. A downward kinetic energy is applied to a bucket or the like, and kinetic energy is given to this by gravity depending on the falling distance. The fall distance from the tank at the top can be changed by changing the distance to the bucket or the like that receives it. If this rotation is about 2 to 2 meters per second and 60 buckets etc. are attached at almost equal intervals, and if the exercise of this chain is about 132 meters, the buckets etc. will be liquid such as water in the upper tank every second. It will be calculated to include mercury etc. Assuming that liquid mercury such as water is put into the bucket or the like by the lower part or the replenishment device so as to be about 40 liters, 40 liters of water or mercury or the like moves to the upper tank per second. Assuming that the upper tank drops 10 liters per second into a bucket or the like and the bucket or the like catches it, and the distance from the upper tank to the bucket or the like is 15 meters, the kinetic energy is calculated to be 2250 joules. Then, as a rough estimate, a downward force is applied to the chain or the like. Even if the output of the drive motor, etc. that was rotating this device at first is reduced, the output of the drive motor, etc. is gradually reduced by transmitting the downward kinetic energy of liquid mercury such as water to the chain in this way. But this rotating device can move. Since the kinetic energy is 1/2 x mass x velocity squared, it is calculated that the kinetic energy increases 100 times when the velocity increases 10 times. The amount of liquid mercury, etc., such as water dropped from the upper tank, etc. of this device toward the lower bucket, etc. can be adjusted by a valve, and the circumference of the device itself can be freely changed. In order to move as efficiently as possible, the numerical values in these places can be varied and optimized according to the purpose. Resistance that hinders rotation For example, the process of assembling liquid mercury such as water from the lower tank into a bucket or the like can be designed so that the passage is designed to have the minimum resistance so as to be as efficient as possible. Then, liquid mercury such as water in the upper tank can be dropped 60 meters below using a pipe or the like, and the energy can be applied to a water wheel or the like to transmit the energy and operate the generator. By surrounding the outside of this device with a shield and sucking out the air inside it with a suction device, the inside can be made into a vacuum or low pressure state to eliminate or reduce the air resistance when water or liquid mercury falls. can. Such a device serves to transmit gravitational energy to rotational energy through water, liquid mercury, or the like. Of course, it is also possible to move water, liquid mercury, etc. to the upper tank by using the energy of a pump, a water wheel that rotates by receiving the flow of a river, etc., as in the conventional case. Liquid mercury such as water (or iron balls etc.) can be dropped from the upper tank at equal intervals while controlling the time. It is possible to increase the making strength) by installing it between the on-off valve c1 and the upper tank, and collecting 10 liters of shishi-odoshi. It is also possible to install a device that operates in a certain manner. The number of revolutions can be controlled by applying a certain load to the turbine.
It is possible to construct a device that operates more efficiently than using a normal power device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2020098015A JP2021173279A (en) | 2020-04-30 | 2020-04-30 | Living cost reduction |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2020098015A JP2021173279A (en) | 2020-04-30 | 2020-04-30 | Living cost reduction |
Publications (1)
Publication Number | Publication Date |
---|---|
JP2021173279A true JP2021173279A (en) | 2021-11-01 |
Family
ID=78279527
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2020098015A Pending JP2021173279A (en) | 2020-04-30 | 2020-04-30 | Living cost reduction |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2021173279A (en) |
-
2020
- 2020-04-30 JP JP2020098015A patent/JP2021173279A/en active Pending
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US7621129B2 (en) | Power generation system | |
CN104295448A (en) | All-weather clean energy comprehensive electricity generating and energy saving method and facility manufacturing method thereof | |
US11022103B2 (en) | Apparatus, system, and method for raising deep ocean water | |
JP6232530B2 (en) | Improvement and utilization of "buoyancy power generation method" | |
CN105155751A (en) | Photovoltaic film structure | |
CN102027869A (en) | Method and equipment for carrying out air conditioning on natural environment by applying chimney type air guide tower | |
CN104890829A (en) | Inflated film structural bodies, inflated body devices and manual climate control methods formed by same | |
JP2021075254A (en) | Reduction in living cost and the like | |
JP2021085651A (en) | Living cost reduction and the like | |
US4563248A (en) | Solar distillation method and apparatus | |
WO2022130669A1 (en) | Invention that brings advancements to daily life | |
JP2021173279A (en) | Living cost reduction | |
JP2021173274A (en) | Living cost reduction | |
WO2022254641A1 (en) | Living cost reduction, etc. | |
JP2022106306A (en) | Method for reducing costs in life | |
JP2021091200A (en) | Life cost reduction and the like | |
JP2022091652A (en) | Living cost reduction or the like | |
JP2021095906A (en) | Reduction in living cost | |
JP2022095506A (en) | Lifestyle improvement, etc. | |
JP2021091092A (en) | Method for living efficient life | |
EP2675968A2 (en) | Habitable structure | |
GB2523273A (en) | Water power | |
JP2021091093A (en) | Life cost reduction and the like | |
JP2021024264A (en) | Reduction in cost of living | |
JP2021020442A (en) | Reduction in cost of living |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
A621 | Written request for application examination |
Free format text: JAPANESE INTERMEDIATE CODE: A621 Effective date: 20230429 |
|
A131 | Notification of reasons for refusal |
Free format text: JAPANESE INTERMEDIATE CODE: A131 Effective date: 20240116 |
|
A601 | Written request for extension of time |
Free format text: JAPANESE INTERMEDIATE CODE: A601 Effective date: 20240318 |
|
A521 | Request for written amendment filed |
Free format text: JAPANESE INTERMEDIATE CODE: A523 Effective date: 20240516 |
|
A521 | Request for written amendment filed |
Free format text: JAPANESE INTERMEDIATE CODE: A523 Effective date: 20240708 |
|
A131 | Notification of reasons for refusal |
Free format text: JAPANESE INTERMEDIATE CODE: A131 Effective date: 20240910 |