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JP4702652B2 - Wind power generator that doubles as a tidal current generator - Google Patents
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JP4702652B2 - Wind power generator that doubles as a tidal current generator - Google Patents

Wind power generator that doubles as a tidal current generator Download PDF

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JP4702652B2
JP4702652B2 JP2009299445A JP2009299445A JP4702652B2 JP 4702652 B2 JP4702652 B2 JP 4702652B2 JP 2009299445 A JP2009299445 A JP 2009299445A JP 2009299445 A JP2009299445 A JP 2009299445A JP 4702652 B2 JP4702652 B2 JP 4702652B2
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wind
blade
generator
rotation
tidal
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JP2010180876A (en
JP2010180876A5 (en
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正治 加藤
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03DWIND MOTORS
    • F03D3/00Wind motors with rotation axis substantially perpendicular to the air flow entering the rotor 
    • F03D3/06Rotors
    • F03D3/062Rotors characterised by their construction elements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B13/00Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates
    • F03B13/12Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy
    • F03B13/26Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy using tide energy
    • F03B13/264Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy using tide energy using the horizontal flow of water resulting from tide movement
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F05INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
    • F05BINDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
    • F05B2240/00Components
    • F05B2240/90Mounting on supporting structures or systems
    • F05B2240/95Mounting on supporting structures or systems offshore
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/30Wind power
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/50Hydropower in dwellings
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/70Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/30Energy from the sea, e.g. using wave energy or salinity gradient
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy
    • Y02E10/727Offshore wind turbines
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy
    • Y02E10/74Wind turbines with rotation axis perpendicular to the wind direction
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P80/00Climate change mitigation technologies for sector-wide applications
    • Y02P80/20Climate change mitigation technologies for sector-wide applications using renewable energy

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Sustainable Energy (AREA)
  • Sustainable Development (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Oceanography (AREA)
  • Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
  • Wind Motors (AREA)
  • Hydraulic Turbines (AREA)

Description

この風力発電装置1は風力を全方向から受け、同じ方向に回転しうるものであり、羽根を風上方向から垂直に流れを閉じ、上下の迂回防止板により空気の迂回を防止し羽根に強力な風圧を受け、そのまま押されて風下に半回転し、風下時点では羽根が約90度回転し水平に開いて抵抗を少なく半回転し風上に達し、再び約90度逆回転することによって風力を受け、水平と垂直を繰り返して回転し、電力を発電する風力発電装置1。  This wind turbine generator 1 receives wind power from all directions and can rotate in the same direction. The blades are closed vertically from the windward direction, and the upper and lower detour prevention plates prevent air from being detoured and powerful against the blades. The wind is pushed down and rotated halfway downwind, and at the time of leeward, the blades rotate about 90 degrees, open horizontally, reach a little upside down with little resistance, reach the windward, and rotate backward about 90 degrees again. The wind power generator 1 that generates electric power by rotating horizontally and vertically repeatedly.

従来の風力発電では風力が羽根に当たって上下に又は左右に迂回し全風力の僅かな力だけが回転運動を発生させてきた。したがって羽根に受ける風圧が弱く、かなり大きな羽根や強い風力で回転運動が生じていた。風力が足りなく羽根が回転しない場合もあった。In the conventional wind power generation, the wind force hits the blade and detours up and down or left and right, and only a slight force of the entire wind force generates a rotational motion. Therefore, the wind pressure received by the blades was weak, and rotational movement was generated by fairly large blades and strong wind force. In some cases, wind power was insufficient and the blades did not rotate.

従来の風力発電ではかなり高所に羽根を設置する為、民家の近くや狭い土地には設置できない欠点があった。Conventional wind power generation has a drawback that it cannot be installed near a private house or in a small land because the blades are installed at a very high place.

従来の風車では高さが高いタワー(64m〜85m+羽根35m)のため倒壊の際大きな事故になる危険性がある。風力発電マニュアル2005−P39参照。In a conventional windmill, there is a risk of a major accident when collapsed due to the high tower (64m to 85m + blades 35m). See Wind Power Manual 2005-P39.

従来の風車は羽根が3方に長く張り出し回転するため自然景観を破壊して居る。The conventional windmill destroys the natural scenery because the blades extend over and rotate in three directions.

回転羽根が長い(35m)ためかなり広い回転範囲70m4方を必要としてきた。70m四方、高さ約100mまでを占有してきた。Since the rotary blade is long (35 m), a considerably wide rotation range of 70 m 4 has been required. It occupies up to 70m square and about 100m in height.

風向を判断し風向に羽根を向ける方行舵が必要であった。が本発明では全方向から風を受け回転するため方向舵の必要が無い。A direction rudder that judged the wind direction and turned the blades to the wind direction was necessary. However, in the present invention, there is no need for a rudder because it rotates by receiving wind from all directions.

特願2007−117700は風車の回転方向に対し逆方向の風が風車に当たらないようエアガイド2を要している。が本発明には無い。Japanese Patent Application No. 2007-117700 requires an air guide 2 so that wind in the direction opposite to the rotation direction of the windmill does not hit the windmill. However, this is not present in the present invention. 特願2007−105187はシャフトに複数の翼を上段下段に有し固定するが本発明は固定しない。Japanese Patent Application No. 2007-105187 has a plurality of blades at the upper and lower stages and is fixed to the shaft, but the present invention is not fixed. 特願2007−082883はシャフトに翼を固定しているが本発明では固定していない。In Japanese Patent Application No. 2007-082883, the wing is fixed to the shaft, but it is not fixed in the present invention.

特願2006−168769はシャフトに垂直羽根型を固定して居るが本発明は固定しない。
特願平07−212240は各羽根12の開口部12bを有するが本発明には無い。
In Japanese Patent Application No. 2006-168769, the vertical blade type is fixed to the shaft, but the present invention is not fixed.
Japanese Patent Application No. 07-212240 has an opening 12b of each blade 12 but is not in the present invention.

風力発電マニュアル2005牛山和泉監修日本自然エネルギー編著 P39、風車の設置可能なスペースは75M×75Mの面積を占有する。重量は49トン・・とあるが当発明は多くの面積を必要とせず重量も軽い。Wind power generation manual 2005 Uiyama Izumi supervision edited by Japan Natural Energy P39, the space where the windmill can be installed occupies an area of 75M x 75M. Although the weight is 49 tons, the present invention does not require a large area and is light in weight.

化石燃料による地球温暖化が世界的な規模で展開され、動植物の生態系に影響を与え、人間の生活環境にも甚大な悪影響を与えている。温暖化ガスが地球を変化させ続けている。Global warming due to fossil fuels has been deployed on a global scale, affecting the ecosystems of animals and plants, and having a huge negative impact on the human living environment. Greenhouse gases continue to change the earth.

原子力発電では放射能に関連して未曾有の危険性を膨張させている。放射能の危険処理は永久に続き終わる可能性はない。Nuclear power is expanding unprecedented risks related to radioactivity. The danger handling of radioactivity cannot last forever.

この発明は自然界に常に存在する風のエネルギーを利用し、温暖化ガスを発生することなく膨大な電力エネルギーを確保するものである。
この発明は地球上のあらゆる表面を流れている風力のエネルギーを強力な回転運動に変え、その膨大なエネルギーを利用して電力を発生させ、地球の温暖化を完全にストップさせ、動植物の生態系をよみがえらせ、人間の生活環境を良好なものにするものである。
迂回防止板の間の風力は、垂直状態の羽根を風下へと押し風下に至る、風上では回転誘導折り曲げに風を受け自動的に回転を始める。風下では羽根に受ける風力が少なくなり回転誘導折り曲げに逆方向から風を受けるため同時回転し、片方が垂直となり片方は水平となる。横回転羽根は横シャフトより上が狭く下が広いことによって、広いほうが下ストッパーに接近し垂直となり半回転した後約90度逆回転して水平となり上横ストッパーに接近する。この発明は横シャフトが縦シャフトを貫通し連続しているため片方が水平となると片方は垂直となる。水平と垂直を繰り返しながら縦シャフトを回転させるものである。また左右の羽根を約90度鈍角又は鋭角に設定し調節することにより羽根がストッパーへの衝撃も無く回転運動が繰り返されるものである。1空間面積当たりの風量を有効に回転力として利用する長所をもつものである。
The present invention uses wind energy that is always present in nature and secures enormous power energy without generating greenhouse gases.
This invention changes the energy of wind power flowing on every surface of the earth into a powerful rotating motion, generates electric power using this enormous energy, completely stops global warming, and the ecosystem of animals and plants Revive and improve the human living environment.
The wind force between the detour prevention plates pushes the blades in the vertical state to the leeward and reaches the leeward. In the lee, the wind force received by the blades is reduced, so that the wind is received from the opposite direction to the rotation-induced bending, so that the blades rotate at the same time, and one becomes vertical and the other becomes horizontal. Since the horizontal rotary blade is narrower and wider at the top than the horizontal shaft, the wider blade approaches the lower stopper, becomes vertical and makes a half turn, and then reverses approximately 90 degrees to become horizontal and approaches the upper horizontal stopper. In the present invention, since the horizontal shaft passes through the vertical shaft and is continuous, when one becomes horizontal, the other becomes vertical. The vertical shaft is rotated while repeating horizontal and vertical. In addition, by setting the left and right blades at an obtuse or acute angle of about 90 degrees and adjusting the blades, the blades are rotated without any impact on the stopper. It has the advantage of effectively using the air volume per space area as a rotational force.

この発明は放射能の危険も無く、エネルギーを全く安全に安価にしかも永遠に確保せしめるものである。また寒冷地用として上迂回防止板を大きく張り出たせ、屋根の働きもさせて雪が入り込みにくくし、風だけが通過するようにし、かつ迂回防止板や羽根ガイド版ストッパーガイドレール等に氷結防止のため加熱具を付設することによって寒冷地でも風力発電を可能ならしめたものである。
この発明は風さえあれば南極や北極等でもすぐ発電できる長所を持つものである。
The present invention has no danger of radioactivity, and ensures energy safely and cheaply forever. For cold regions, the upper detour prevention plate is greatly extended, the roof works to make it difficult for snow to enter, only the wind passes, and the anti-freeze plate and blade guide plate stopper guide rail etc. For this reason, it is possible to generate wind power even in cold regions by installing a heater.
The present invention has the advantage that power can be generated immediately in the South Pole and the North Pole as long as there is wind.

横回転羽根が垂直となり風力を受けるとき、迂回防止板によって風力損失を防ぐため極めて強い風圧となり回転運動を起こすものであり、また弱い風力でも充分に発電しうる能力を持つものである。この発明を小型化し、かつ軽量化することによって組み立て式発電機として、必要な地域に移動も可能であり、地震被災地や津波被災地、台風など天災事変の場所でも組み立てが可能であり、人名救助や災害通信連絡や、災害復興に大いに役立つものである。  When the horizontal rotating blades are vertical and receive wind force, the detour prevention plate prevents wind power loss, causing extremely strong wind pressure and causing rotational motion, and has the ability to generate enough power even with weak wind force. By making this invention smaller and lighter, it can be moved to the required area as an assembly-type generator, and can be assembled in areas affected by natural disasters such as earthquake-affected areas, tsunami-affected areas, and typhoons. It is very useful for rescue, disaster communication and disaster recovery.

この装置は高く組み上げるほど有力な風力エネルギーが得られ、横に連結するほど多くのエネルギーが確保でき、上階に高く積み上げてゆく事によってより有効な風力を受け発電でき、常に全く原材料費の要らない風力発電に依よる電力エネルギーが得られるものである。  The higher the device is built, the more powerful wind energy can be obtained, and the more it can be connected horizontally, the more energy can be secured, and the higher the floor, the more effective wind power can be received and power generated. There is no wind energy that can be obtained from the power generation.

この風力発電装置は、ビルの屋上や学校、工場の屋上、平地や丘陵地、高層マンションの屋上、海岸付近、山頂や尾根、海洋上や船舶の上、港、筏の上、無人島や半島、大草原、高原、大砂漠等全ての場所に設置可能であり、どの地域からも自然の風力から電力エネルギーが得られるものである。  This wind power generator can be used for building rooftops, schools, factory rooftops, flat and hilly terrain, high-rise condominium rooftops, near the coast, mountaintops and ridges, on the ocean and on ships, on harbors, on ridges, uninhabited islands and peninsulas. It can be installed in all places such as grasslands, plateaus, deserts, etc., and power energy can be obtained from natural wind power from any area.

羽根が長く張り出さないので自然景観を破壊しない、また同じ面積で同じ高さでは数十倍ものエネルギーが得られるものである。  Because the wings do not stick out for a long time, they do not destroy the natural landscape, and at the same area and height, dozens of times more energy can be obtained.

直径が少ない、広範囲の土地を必要としない、上や横に連続して設置可能であり、発電ビル等では同階に多くの風力発電装置1を設置、多重階に設置可能であり極めて多くの電力エネルギーを得るものである。  It has a small diameter, does not require a wide area of land, can be installed continuously on the top and side, and many wind power generators 1 can be installed on the same floor in power generation buildings, etc. Electric power energy is obtained.

全ての方向からの風力を受け1定方向にのみ回転するため方向舵を必要としない。急に風向きや潮流が変わっても即対応でき、同じ方向に回転運動をし、エネルギーを確保できる長所を有するものである。  A rudder is not required because it receives wind power from all directions and rotates only in one fixed direction. It has the advantage that it can respond immediately even if the wind direction and tide flow suddenly change, and can rotate in the same direction to secure energy.

応用例1Application example 1

発生した電力で水を電気分解し酸素と水素を取り出し、水素や酸素による発電によって電力が得られ、必要な時に必要な量の電力を発生させることが出来るものである。全く産業に適しない場所や離島、山脈の中等でも風は万遍なく吹いている。この発明はどの地域でも充分な豊かな電力や酸素、水素を資源として得ることが出来る特徴のものである。  Water is electrolyzed with the generated electric power to extract oxygen and hydrogen, and electric power is obtained by power generation using hydrogen or oxygen, and a necessary amount of electric power can be generated when necessary. Even in places that are completely unsuitable for industry, remote islands, mountains, etc., the wind is blowing uniformly. The present invention is characterized by being able to obtain abundant electric power, oxygen, and hydrogen as resources in any region.

応用例2Application example 2

この発明は潮流発電にも応用出来るものである。全体をフエンスでかこみ水中の浮遊物、流木や海藻等を防ぎ、本体を浮きや杭、碇等を付設することによって水面に浮上させ潮位による変化に対応しながら、潮流発電が可能となるものである。また浮きや杭、碇等を付設した発電装置は海や河川で横に連結して拡張することによって潮流発電装置軍団を形成でき極めて広範囲から、膨大な電力を得るものでありエネルギーを汲み上げた後の水には何の変化も無く大気汚染などを全く起こさない特徴がある。  The present invention can also be applied to tidal current power generation. The whole is covered with fens and prevents floating substances, driftwood, seaweed, etc. in the water, and the main body is floated, piled up, attached to the surface of the water, and tidal current power generation is possible while responding to changes due to tide levels. is there. In addition, power generators equipped with floats, piles, dredging, etc. can form tidal current power generation corps by connecting and expanding horizontally in the sea or rivers to obtain enormous power from a very wide area, after pumping up energy There is no change in the water, and there is a feature that does not cause any air pollution.

応用例3Application example 3

水深の浅い海岸、瀬戸内海や浜名湖の河口に設置し水中に潮流発電装置を設け、コンクリート脚や杭、碇、鉄塔等により海中に建て、洋上には何段にも積みかさね、風力発電装置と潮流発電装置とを同時に用い、干潮満潮時には風が無くても電力が得られ、浜風の吹くとき風力発電装置が働き大きな電力が得られるものである。風力と潮流の両方から強大な電力エネルギーを確保させる特徴をもつものである。浜名湖では毎日約6000万トンの海水が流入流出する。水力発電ダムの数十倍である。このエネルギーを電力に替えることが可能であります。瀬戸内海では浜名湖の更に数十倍のエネルギーが毎日全く利用されずに流れている。  Installed at the shallow water shore, Seto Inland Sea and Lake Hamana estuary and installed tidal power generators in the water, built in the sea with concrete legs, piles, firewood, steel towers, etc. And tidal current power generators can be used at the same time to obtain electric power even when there is no wind at low tide and high tide. It has the characteristic of securing strong power energy from both wind power and tidal current. At Lake Hamana, about 60 million tons of seawater flows in and out every day. Dozens of hydropower dams. It is possible to replace this energy with electric power. In the Seto Inland Sea, energy several tens of times that of Hamana Lake flows without being used every day.

応用例4Application example 4

電力の不要な時間に水を電機分解し酸素と水素を得、必要な時間に水素を燃焼して火力発電し、酸素の一部を浜名湖や瀬戸内海の海中に放流することによってプランクトンや稚魚、魚介類の飼育や成長を促し海中牧場を形成させ、赤潮被害を完全に防ぎ、優良な漁場を形成せしめるものである。  Plankton and fry are obtained by electrolyzing water to generate oxygen and hydrogen when electricity is not needed, burning hydrogen to generate thermal power when it is needed, and discharging a portion of the oxygen into the waters of Lake Hamana and the Seto Inland Sea. It promotes the breeding and growth of seafood, forms an underwater ranch, completely prevents red tide damage, and forms an excellent fishing ground.

発明の効果The invention's effect

風力発電装置は地球温暖化を完全に止め、社会のエネルギー不足を完全に解決し人間社会に豊かな電力エネルギーを供給するものである。
この発明は地球温暖化を完全に止め、しかも温暖化ガス等の公害を全く出さない。自然の風だけのエネルギーによる風力発電で、その量は無限であり、材料費は無料である。しかも風は世界中くまなく吹き流れている。世界を挙げて地球温暖化を防止させる長所を持つものである。また応用例のごとく不要時の電力で水を電気分解することによって水素と酸素を発生させ水素はそのまま水素燃料発電の原料として使用し、酸素も様々な分野で利用可能であり、発電の際発生する水は飲料水としても利用可能なものである。また潮流発電として利用することによって河川や国の周辺、島々の周辺から、膨大な潮流エネルギーが確保でき大産業革命を起こす原動力となるものである。
A wind power generator completely stops global warming, completely solves the energy shortage of society, and supplies rich electric energy to human society.
This invention completely stops global warming and does not emit any pollution such as greenhouse gases. Wind power generation using only natural wind energy, the amount is unlimited, and material costs are free. Moreover, the wind is blowing all over the world. The world has the advantage of preventing global warming. In addition, as in the application example, hydrogen and oxygen are generated by electrolyzing water with electricity when unnecessary, and hydrogen is used as it is as a raw material for hydrogen fuel power generation. Oxygen can also be used in various fields. Water that can be used as drinking water. Also, by using it as tidal power generation, enormous tidal current energy can be secured from around rivers, countries, and islands, and it will be the driving force for a large industrial revolution.

この風力発電装置はビルの屋上や学校、工場の屋上、平地や丘陵地、高層マンションの屋上、海岸付近、港、山頂や尾根、海洋上や船舶の上、筏の上、無人島や半島、浜名湖河口付近や瀬戸内海の各地、南極北極、ツンドラ地帯、大砂漠等地球上のどの地域でも風の持つ自然エネルギーから羽根を回転させ風力発電装置によって電力エネルギーを確保するものである。また河川や海中に潮流発電装置として用いた場合、浜名湖や瀬戸内海に用いることによって現在の水力発電所の数十倍か数百倍のエネルギーを全く公害なしで確保し得る特徴を持つものである。  This wind power generator can be used for building rooftops, schools, factory rooftops, flat and hilly terrain, high-rise apartment rooftops, near the coast, harbors, mountaintops and ridges, on the ocean and on ships, on the ridges, uninhabited islands and peninsulas, Wind energy generators are used to secure power energy by rotating the blades from the natural energy of the wind near the Hamana Lake estuary, the Seto Inland Sea, the Antarctic Arctic, the tundra, and the great desert. In addition, when used as a tidal current power generation device in rivers and underwater, it can be used for Hamana Lake and Seto Inland Sea, and it has the characteristic that it can secure energy tens or hundreds of times that of current hydropower plants without any pollution. is there.

正面説明図Front illustration 正面図A−A線間の説明平面図Front view A-A explanatory plane view 羽根回転部分説明斜視図Blade rotation part explanation perspective view 横シャフト及び羽根の説明図Illustration of horizontal shaft and blade ストッパーと羽根の部分説明図Partial explanatory diagram of stopper and blade 応用例連続使用例の正面説明図Front view of application example continuous use example 潮流発電兼用応用例の説明図Illustration of tidal current power generation combined application example 海洋設置の平面説明図Plane illustration of ocean installation 海洋設置側面説明図Ocean installation side illustration 建物屋上の応用例の説明図Illustration of application example on building roof 風力発電ビルの応用例図Application example of wind power building

1 風力発電装置
2 縦回転シャフト
3 横回転シャフト
4 回転羽根
5 迂回防止板
6 迂回防止板支柱
7 横回転羽根ストッパー
8 杭
9 ベアリング
10 発電機
11 加速回転ボックス
12 潮位調節波浪吸収バネ
13 ストッパーの衝撃防止バネ
14 フエンス
15 浮き
16 潮位対応可変リング
17 横回転シャフト及びストッパーのガイドレール
18 羽根の回転誘導折り曲げ
19 高層ビル
20 作業用フオーク
21 碇
22 羽根頭部
23 羽根尾部
24 ブレーキ付シャフト受け
25 フエンス用浮き
DESCRIPTION OF SYMBOLS 1 Wind power generator 2 Vertical rotation shaft 3 Horizontal rotation shaft 4 Rotary blade 5 Detour prevention plate 6 Detour prevention plate support 7 Horizontal rotation blade stopper 8 Pile 9 Bearing 10 Generator 11 Acceleration rotation box 12 Tide level adjustment wave absorption spring 13 Impact of stopper Prevention spring 14 Fence 15 Floating 16 Tidal level variable ring 17 Guide shaft 18 for horizontal rotation shaft and stopper 18 Rotation induction bending of blade 19 High-rise building 20 Work fork 21 碇 22 Blade head 23 Blade tail 24 Brake shaft receiver 25 For fence float

Claims (5)

潮流発電装置を兼ねた風力発電装置1は縦回転シャフト2を横回転シャフト3が上下に、貫通し十字となり、左右に風受け回転羽根4が約90度違えて調節取り付けし、迂回防止板5及び迂回防止板支柱6を設け、回転羽根の下方や横に横回転羽根ストッパー7を縦シャフトに固定し、羽根4の外周部に羽根の回転誘導折り曲げ18を設け、摩擦する部位にはベアリング9を設け、加速回転ボックス11で数十倍等に高速回転させ、複数の発電機10を風速によって次々に作動させ、加速回転ボックス内にはブレーキを設け、又縦回転シャフトにブレーキ付シャフト受け24を設け、羽根は回転誘導折り曲げに風圧を受け、自動的に正回転し垂直と成り、縦シャフトに段違いに同じ角度で回転羽根をつけることにより、同方向のすべての羽根が垂直となり、5枚10枚、数十枚等、縦に長い超大型羽根が瞬時に出来上がり風圧を受け、風下付近に至ると、いっせいに約90度逆回転し水平で風上に向かう。垂直になった羽根尾部が下ストッパーに当たる前に、
羽根バネでストッパー衝撃速度を緩めて止まり、横ストッパーにも同時に羽根バネで衝撃 速度を緩め、羽根尾部の頭部より長い部分の重さによって緩く止まるよう羽根位置、角度 調節可能とし、風上付近に至ったとき回転誘導折り曲げに受ける風力で、全方向からの流 れを一斉に一定方向に自動回転を繰り返すことを特徴とする、潮流発電装置を兼ねた風力発電装置1.
Wind power generator 1 which also serves as a tidal power plants vertical rotating shaft 2 in the lateral rotation shaft 3 is vertically penetrated becomes cross, wind receiving rotary vane 4 is Chigae approximately 90 degrees by adjusting mounting to the left and right bypass preventing plate 5 Further, a detour prevention plate column 6 is provided, a horizontal rotary vane stopper 7 is fixed to the vertical shaft below or next to the rotary vane, a vane rotation guide bend 18 is provided on the outer periphery of the vane 4, and a bearing 9 is provided at a frictional portion. The acceleration rotating box 11 is rotated at a high speed such as several tens of times, the plurality of generators 10 are operated one after another by the wind speed, a brake is provided in the acceleration rotating box, and the longitudinally rotating shaft is provided with a shaft receiver 24 with a brake. the provided, blade receives wind pressure the folding rotary induction, automatically become a normal rotation vertically, by attaching a rotary blade in different levels at the same angle to the vertical shaft, all of the blades in the same direction Next vertical, 10 sheets 5 sheets, dozens etc., vertically long very large blades from wind forces finished instantaneously, it reaches the vicinity of downwind windward in unison about 90 degrees counter-rotating horizontally. Before the vertical feather tail hits the lower stopper,
The blade spring can be adjusted by adjusting the blade position and angle so that it can be stopped loosely by the weight of the part longer than the head of the blade tail. and repeating the automatic rotation in the wind experienced bending rotation induced when reached, in a predetermined direction at once the flow of from all directions, the wind turbine generator 1 which also serves as a tidal power generation device.
強風の吹く所によって横回転羽根および迂回防止板に通風路を設け、風圧を下げ、突風な どの多い地では空気を逃がし、少なく風圧を受け、風力の状況に応じて安全性を確保せしめることを特徴とする、請求項1の潮流発電装置を兼ねた風力発電装置1。The air passage is provided beside the rotary blade and the anti-circumvention plate by where blows strong wind, lowering the air pressure, the gust of how many land escape of air, subjected to reduced wind pressure, that allowed to ensure safety according to the wind conditions wherein the wind power generator 1 which also serves as a tidal power generating apparatus according to claim 1. 潮流発電装置として用いる場合、請求項1に加え、杭8に潮位可変リング16を設け、本体上部に浮き15や、碇21で固定し、潮位調節波浪吸収バネで次々に横に連結し、水深の深さによって羽根を下へ5段10段と重ね、大量の水圧を受け、全方向からの流れを一定方向に自動回転運動し、発電機10や加速回転ボックス11を上又は下に設けることを特徴とする、請求項1の潮流発電装置を兼ねた風力発電装置1When used as a tidal power generation device, in addition to claim 1, a tide level variable ring 16 is provided on the pile 8, and is fixed to the upper part of the main body with a floating 15 and a ridge 21, and is connected to each other sideways with a tide level adjusting wave absorbing spring one after another. Depending on the depth of the blade, the blades are piled down in five steps and ten steps, receive a large amount of water pressure, automatically rotate the flow from all directions in a certain direction, and provide the generator 10 and the acceleration rotation box 11 above or below wherein the wind power generator 1 which also serves as a tidal power generating apparatus according to claim 1 寒冷地や雪害の地では積雪や氷結して回転が止まらないよう迂回防止板5、や横回転シャ フト及びストッパーのガイドレール17を加熱し、氷結しないようにし、南極北極等寒冷地でも風力で発電を可能ならしめる特徴の、請求項1の潮流発電装置を兼ねた風力発電装置1。 Heating the cold district or bypass preventing plate 5 so that the rotation does not stop by snow or icing in the land of snow, and lateral rotation Shah shift and the stopper of the guide rail 17, so no icing, wind in Antarctic Arctic like cold climates of Rashimeru features possible power generation, wind power generator 1 which also serves as a tidal power generating apparatus according to claim 1. 小型軽量化しかつ移動組み立て式にし、地震被災地や津波被災地、台風等電力の供給が途絶えた場所に急遽海上輸送又は空輸によって設置し、風力や潮流、河川の流れから電力を供給し、人名救助や災害復興をする臨時組み立て式を特徴とする、請求項1の潮流発電装置を兼ねた風力発電装置1。Small, lightweight and mobile assembly type, installed in areas affected by earthquakes, tsunamis, typhoons, etc., by sudden sea transport or air transport, supplying power from wind power, tidal currents, river flows, etc. The wind turbine generator 1 also serving as a tidal current generator according to claim 1, characterized by a temporary assembly type for rescue and disaster recovery.
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