JP2006090299A - Self-energy generation type liquid driving power generation device and oil pressure generation device - Google Patents
Self-energy generation type liquid driving power generation device and oil pressure generation device Download PDFInfo
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- JP2006090299A JP2006090299A JP2005139019A JP2005139019A JP2006090299A JP 2006090299 A JP2006090299 A JP 2006090299A JP 2005139019 A JP2005139019 A JP 2005139019A JP 2005139019 A JP2005139019 A JP 2005139019A JP 2006090299 A JP2006090299 A JP 2006090299A
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- 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
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/16—Mechanical energy storage, e.g. flywheels or pressurised fluids
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- 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
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/64—Electric machine technologies in electromobility
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Abstract
Description
この発明は、起動時にバツテリー又は外部の電力により可変速電動モーターで液体圧送機(オイルポンプ)を回転させ、液体(オイル)を液体駆動機(オイルモーター)に送り、回転運動に変えて、フライホイール付発電装置、フライホイール付油圧発生装置を回転させて、電力、又は油圧力を発生させる。次に、フライホイールの回転力を利用してチエーン又はギヤ等で液体圧送機(オイルポンプ)に回転力を伝え、次々と液体(オイル)を送り出し、再度、発電力や油圧力を発生することができる。
しかし、機器や配管に抵抗があり、油圧力が低下する為、フライホイールの回転力も減少し、時間と共に停止に到るものであるから、回転力低下時は発電(油圧発生装置は発電装置を併用)した電力の一部をバツテリーに蓄え、その電力を利用、又は外部の電力を利用して、再び、可変速電動モーターを作動し、液体圧送機(オイルポンプ)を回転させて、フライホイールの回転力を上昇させ、再度、発電力や油圧力を発生させる事ができる。
バツテリーの蓄電量よりも可変速電動モーターの使用量が大きい場合は、外部電力を利用して可変速電動モーターを駆動させ、フライホイールの回転力を上昇させ、発電力や油圧発生力を長期的に持続でき、外部エネルギーは最小限の利用で、運転出来る、自己エネルギー発生型液体駆動発電装置及び自己エネルギー発生型液体駆動油圧力発生装置に関するものである。In this invention, at the time of start-up, a liquid pump (oil pump) is rotated by a variable speed electric motor by a battery or external electric power, and the liquid (oil) is sent to a liquid drive (oil motor) to be changed into a rotational motion. A power generator with wheels and a hydraulic pressure generator with flywheels are rotated to generate electric power or hydraulic pressure. Next, use the rotational force of the flywheel to transmit the rotational force to the liquid pumping machine (oil pump) with a chain or gear, etc., and send out the liquid (oil) one after another to generate power and oil pressure again. Can do.
However, since there is resistance in equipment and piping, and the oil pressure decreases, the rotational force of the flywheel also decreases, leading to a stop over time. A part of the combined electric power is stored in the battery, and then the variable speed electric motor is operated again using the electric power or using external electric power, the liquid pump (oil pump) is rotated, and the flywheel It is possible to increase the rotational force of the engine and generate power and oil pressure again.
If the amount of variable-speed electric motor used is greater than the amount of electricity stored in the battery, the variable-speed electric motor is driven using external power to increase the rotational power of the flywheel, and the generation of electric power and hydraulic pressure is prolonged. The present invention relates to a self-energy generation type liquid drive power generation device and a self-energy generation type liquid drive oil pressure generation device that can be operated with a minimum use of external energy.
従来は、火力発電は大量の化石燃料、原子力発電は非常に危険性の高い核燃料を利用して発電を行ている。
また、自然力利用発電の欠点は、太陽光発電は雨、曇りでは効率が落ち、夜間では発電が出来ず、風力発電は無風時は発電をする事が出来ない。Conventionally, thermal power generation uses a large amount of fossil fuel, and nuclear power generation uses very dangerous nuclear fuel.
Moreover, the disadvantages of power generation using natural power are that solar power generation is inefficient when it is raining or cloudy, power generation is impossible at night, and wind power generation is not possible when there is no wind.
本発明は、その欠点を除いて、始動はバツテリー又は外部電力で起動し、運転開始後は自力で発生したエネルギーを使用しながら運転が出来るもので、将来、確実に現実化する、全地球での原油枯渇の状態でも、化石燃料を使用せずに発電が出来る様にすること。又、自動車を電気自動車や油圧自動車に移行させて、二酸化炭素や窒素酸化物等の大気汚染物質の排出を抑制し、地球温暖化の防止を図り、本来の地球環境に戻し、人類の生活環境の改善を図ることが課題である。The present invention, except for its drawbacks, starts with battery or external power, and can be operated while using the energy generated by itself after the start of operation. Even in the state of crude oil depletion, it should be possible to generate electricity without using fossil fuel. In addition, by shifting automobiles to electric cars and hydraulic cars, the emission of air pollutants such as carbon dioxide and nitrogen oxides is suppressed, global warming is prevented, and the environment is restored to the original global environment. It is a problem to improve.
いまその解決手段を図面にて説明すれば、始動はバツテリー(11)又は外部電力で可変速電動モーター(4)を運転して液体圧送機(オイルポンプ等)(2)で液体(オイル等)を液体駆動機(オイルモーター等)(3)に送り、回転運動に変えて、フライホイール付発電装置、又は同油圧発生装置(1)を回転させて、発電力、又は油圧力を発生する。
発電装置又は油圧発生装置のフライホイールによる回転力で、再度、液体圧送機(オイルポンプ等)(2)を回転させ、次々とオイルを送り出して、長期的に運転を行うことができる。
発電装置又は油圧発生装置(1)のフライホイールが一定回転に上昇すると可変速電動モーター(4)は停止する。又機器や配管で抵抗がある為、油圧力の低下があり、回転力が減少し、時間と共に停止するものである為、発電した電力(油圧発生装置は発電機を併用)の一部を整流器(12)で、直流電流に変え、バツテリーに蓄えておき、回転力不足時に可変速電動モーター(4)を回転させ発電機又は油圧発生装置(1)のフライホイール回転力を再度上昇させる。
バツテリー(11)の蓄電量よりも可変速電動モーター(4)の使用電力量が多い場合は、外部部電力を利用し可変速電動モーター(4)を回転させ、フライホイール付発電機又は油圧発生装置(1)の回転を上昇させる。
液体駆動機(オイルモーター等)(3)、フライホイール付発電装置又は油圧装置(1)、液体圧送機(ポンプ等)(2)と可変速電動モーター(4)を駆動用チエーン又はギヤ(9)で連結して動力を伝達する。
オイルの発熱温度はオイルクーラー(8)で冷却し、圧力、油量の調整は油圧、油量調整シリンダー付オイルタンク(5)で行う。高圧パイプ(7)、バイパス用高圧パイプ(10)に機器停止用仕切弁(6)を取付る。The solution will now be described with reference to the drawings. Starting is performed by a battery (11) or a variable speed electric motor (4) with external power and a liquid pump (oil pump, etc.) (2) with a liquid (oil, etc.). Is sent to a liquid drive (oil motor or the like) (3) and changed into a rotational motion, and the power generator with flywheel or the hydraulic pressure generator (1) is rotated to generate electric power or oil pressure.
The liquid pump (oil pump or the like) (2) is rotated again by the rotational force generated by the flywheel of the power generation device or the hydraulic pressure generator, and the oil can be sent out one after another for long-term operation.
When the flywheel of the power generator or the hydraulic pressure generator (1) rises to a constant rotation, the variable speed electric motor (4) stops. Also, because there is resistance in equipment and piping, there is a drop in oil pressure, rotational force decreases, and it stops with time, so a part of the generated power (hydraulic generator combined with generator) is rectified In (12), instead of direct current, it is stored in the battery, and when the rotational force is insufficient, the variable speed electric motor (4) is rotated to increase the flywheel rotational force of the generator or the hydraulic pressure generator (1) again.
When the amount of power used by the variable speed electric motor (4) is larger than the amount of electricity stored in the battery (11), the variable speed electric motor (4) is rotated using external power to generate a flywheel generator or generate hydraulic pressure. Increase the rotation of the device (1).
A liquid drive (oil motor, etc.) (3), a power generator or hydraulic device with a flywheel (1), a liquid pump (pump, etc.) (2) and a variable speed electric motor (4) are connected to a drive chain or gear (9 ) To transmit power.
The heat generation temperature of the oil is cooled by an oil cooler (8), and the pressure and oil amount are adjusted by an oil tank (5) with a hydraulic pressure and oil amount adjusting cylinder. The gate valve for equipment stop (6) is attached to the high-pressure pipe (7) and the high-pressure pipe (10) for bypass.
本発明は、以上のような構造であるから、これを使用するときは、液体圧送機(オイルポンプ等)(2)の出口より高圧パイプ(7)でサービス用仕切弁(6)、液体駆動機(オイルモーター等)(3)、オイルクーラー(8)、油圧、油量調整シリンダー付オイルタンク(5)を連結しオイルポンプ(2)の入口に戻す。
バイパス用高圧パイプ(10)にもサービス用仕切弁(6)を取付る。
オイルモーター(3)、フライホイール付発電機又は同油圧装置(1)、オイルポンプ(2)と可変速電動モーター(4)を駆動用チエーン又はギヤ(9)で連結し、オイルを注入して可変速電動モーター(4)の電源を入れて起動すればよい。Since the present invention has the structure as described above, when this is used, the service gate valve (6) and the liquid drive are connected by the high-pressure pipe (7) from the outlet of the liquid pump (oil pump or the like) (2). Connect the machine (oil motor etc.) (3), oil cooler (8), oil pressure, oil tank (5) with oil quantity adjustment cylinder and return to the inlet of the oil pump (2).
A service gate valve (6) is also attached to the bypass high-pressure pipe (10).
The oil motor (3), generator with flywheel or hydraulic device (1), oil pump (2) and variable speed electric motor (4) are connected by a drive chain or gear (9) and injected with oil. The variable speed electric motor (4) may be turned on and started.
本発明は、起動時にバツテリー又は外部の電力を利用するが、起動後は自己発電した電力の一部を利用するので、他エネルギーの利用は最小限であり、火力発電を本発明品に変更すれば、地球温暖化防止に効果があり、将来予想される原油不足の緩和にも役立てる効果もある。
燃料の使用量も最小限である為、電力生産コストを大きく削減が出来もので、一般家庭や産業界の電力使用料金も値下が出来、日本における経済効果は膨大なものがある。
また、電気自動車の電源として利用が実現できれば『電池切で走行が出来ない』と言う事が無くなり、騒音も減少し、燃料費もかからない為、ガソリンエンジン車やデイーゼルエンジン車からの切替が急速に進み、二酸化炭素等の排出量が大きく減少されるものであり、地球温暖化防止に絶大な効果があるものである。The present invention uses battery or external power at startup, but uses part of the self-generated power after startup, so the use of other energy is minimal, and thermal power generation is changed to the product of the present invention. In other words, it is effective in preventing global warming, and is also effective in mitigating expected crude oil shortages in the future.
Since the amount of fuel used is also minimal, the power production cost can be greatly reduced, and the electricity usage charges for ordinary households and industries can be reduced. The economic effects in Japan are enormous.
Also, if it can be used as a power source for electric vehicles, it will no longer be said that it cannot run with the battery out, noise will be reduced, and there will be no fuel costs, so there will be a rapid changeover from gasoline engine vehicles and diesel engine vehicles. Advances in emissions of carbon dioxide and the like are greatly reduced, and have a tremendous effect on the prevention of global warming.
1はフライホイール付発電機又は同油圧発生装置
2は液体圧送機(オイルポンプ)
3は液体駆動機(オイルモーター)
4は可変速電動モーター
5は油圧、油量調整シリンダー付オイルタンク
6は機器停止用仕切弁
7は高圧パイプ
8はオイルクーラー
9は駆動用チエーン又はギヤ
10はバイパス用高圧パイプ
11はバツテリー
12は整流器1 is a generator with a flywheel or the same
3 is a liquid drive (oil motor)
4 is a variable speed electric motor 5 is oil pressure, oil tank with oil
Claims (4)
フライホイールに蓄積された回転動力は低下する為、発電機においては、発電した一部の電力、また油圧発生装置においては、併用した発電機で発電した電力をバツテリーに蓄積し、その電力を利用して、再度、可変速電動モーターを回転させ液体圧送機(オイルポンプ等)で液体(オイル等)を液体駆動機(オイルモーター等)に圧送し、回転運動に変え、フライホイール付発電機、又はフライホイール付油圧発生装置を回転させ、発電力や油圧の発生力を長期的に持続させるものである。
バツテリーの蓄電量よりも可変速電動モーターの使用電力量が多い場合は外部の電力を利用して液体圧送機(オイルポンプ等)を駆動する、自己エネルギー発生型液体駆動発電装置及び自己エネルギー発生型液体駆動油圧発生装置。A variable speed electric motor is rotated, and liquid (oil, etc.) is pumped to a liquid drive (oil motor, etc.) with a liquid pump (oil pump, etc.) and converted into rotary motion, with a flywheel generator or flywheel attached The hydraulic power generation device is rotated to generate electric power or oil pressure, and at the same time, rotational power is accumulated in the generator or the flywheel of the hydraulic pressure generation device. Using the rotational power, the power transmission mechanism (chain or gear, etc.) is changed to a variable speed electric motor, the liquid pump (oil pump, etc.) is rotated, and the liquid (oil, etc.) is transferred to the liquid drive (oil motor, etc.) ) To generate electric power or oil pressure again, and simultaneously obtain rotational power of the flywheel.
Since the rotational power stored in the flywheel is reduced, some power generated by the generator is stored in the battery, and in the hydraulic generator, the power generated by the combined generator is stored in the battery and used. Then, rotate the variable speed electric motor again and pump the liquid (oil etc.) to the liquid drive machine (oil motor etc.) with the liquid pump (oil pump etc.), change it into rotary motion, generator with flywheel, Alternatively, the hydraulic pressure generator with a flywheel is rotated to sustain the power generation and hydraulic pressure generation force for a long period of time.
Self-energy generation type liquid drive generator and self-energy generation type that drives liquid pumping equipment (oil pump, etc.) using external power when the power consumption of the variable speed electric motor is larger than the amount of electricity stored in the battery Liquid-driven hydraulic pressure generator.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2011099833A1 (en) * | 2010-02-10 | 2011-08-18 | Luis Monroy Rodriguez | Electrical generator |
WO2012044144A1 (en) * | 2010-09-30 | 2012-04-05 | Luis Monroy Rodriguez | Improvements to an electric generator |
CN102653062A (en) * | 2011-03-02 | 2012-09-05 | 康准电子科技(昆山)有限公司 | Processing machine |
CN103731068A (en) * | 2014-01-27 | 2014-04-16 | 合肥工业大学 | Suspension energy storage flywheel device with conductivity electromagnetic compounding |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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JPS5735172A (en) * | 1980-08-11 | 1982-02-25 | Hideki Kondo | Power increasing equipment |
JP2003106251A (en) * | 2001-09-28 | 2003-04-09 | Yutaka Fukuda | Micromini-hydraulic circulation-type electrostatic generator |
-
2005
- 2005-04-08 JP JP2005139019A patent/JP2006090299A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5735172A (en) * | 1980-08-11 | 1982-02-25 | Hideki Kondo | Power increasing equipment |
JP2003106251A (en) * | 2001-09-28 | 2003-04-09 | Yutaka Fukuda | Micromini-hydraulic circulation-type electrostatic generator |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2011099833A1 (en) * | 2010-02-10 | 2011-08-18 | Luis Monroy Rodriguez | Electrical generator |
WO2012044144A1 (en) * | 2010-09-30 | 2012-04-05 | Luis Monroy Rodriguez | Improvements to an electric generator |
CN102653062A (en) * | 2011-03-02 | 2012-09-05 | 康准电子科技(昆山)有限公司 | Processing machine |
CN103731068A (en) * | 2014-01-27 | 2014-04-16 | 合肥工业大学 | Suspension energy storage flywheel device with conductivity electromagnetic compounding |
CN103731068B (en) * | 2014-01-27 | 2015-09-30 | 合肥工业大学 | The levitation energy-storing flywheel device of permanent-magnetism electromagnetic compound |
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