JP2005188493A - Wave activated and enlarged power generation - Google Patents
Wave activated and enlarged power generation Download PDFInfo
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- JP2005188493A JP2005188493A JP2003436745A JP2003436745A JP2005188493A JP 2005188493 A JP2005188493 A JP 2005188493A JP 2003436745 A JP2003436745 A JP 2003436745A JP 2003436745 A JP2003436745 A JP 2003436745A JP 2005188493 A JP2005188493 A JP 2005188493A
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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
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/30—Energy from the sea, e.g. using wave energy or salinity gradient
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Abstract
Description
堤防(1)は波のある場所に設置をして、波の流れを止めて逆方向に流れて次の波と合流して大波になる。斜面付段差(2)は堤防の下の水中に設置をして、波が段差と斜面に当たり流れが上昇して大波になる。波(3)はエネルギーで、船を浮かべて上下に動かす。船(4)は波に浮かべて、小波の時に船を移動させて梃子棒の力点の位置を支点に接近させて作用点を拡大、大波の時は逆方向に船を移動させて作用点を縮小させる、台風の時は港に移動して台風専用の波力拡大発電に利用する。杭(5)は船の両サイドに設置、船の繋留と横むき防止。油圧式上下装置(6)は船に取り付けて、満潮時に上下装置のピストン(7)を短くして船と梃子棒の距離を接近させる、干潮時に上下装置のピストン(7)を長くして船と梃子棒の距離を大きくする、水位に合わせて操作する。油圧式固定と固定解除機(8)は上下装置の上部に取り付ける、梃子棒に固定と解除と移動自在に取り付けて、波の大きさに合わせ力点を移動して変更する、小波の時に力点を支点に接近させて作用点を拡大する。支柱(9)は堤防の上部に取り付ける、梃子棒を支える。支点(10)は支柱の上部に取り付ける、梃子棒をスライド自在して支える。梃子棒(11)は支柱に取り付ける、力点の方に固定と解除機を接続する。作用点の先端にピストンを取り付ける、波力で左右の梃子棒がスライドする。ジョイント(12)は梃子棒とピストンの継ぎ手。ピストン(13)は梃子棒に取り付ける、梃子棒と連動して上下運動する。エアーポンプ(14)は梃子棒の上下に取り付ける、空気を貯蔵空気圧縮タンクに送る。貯蔵空気圧縮タンク(15)はエアーポンプと合体、貯蔵用タンクを数個設置。パイプ(16)は貯蔵空気圧縮タンクに取り付ける、気圧をタービンに噴射する。噴射口(17)はパイプの先端。バルブ(18)はパイプの先端に取り付ける、気圧開閉弁。タービン(19)は噴射口の前面に取り付ける、気圧により回転。発電機(20)はタービンに取り付ける、タービンの回転により発電。The embankment (1) is installed in a place with waves, stops the wave flow, flows in the opposite direction, and merges with the next wave to become a large wave. The step with slope (2) is installed in the water under the dike, and the waves hit the step and the slope and the flow rises to become a big wave. Wave (3) is energy and floats and moves up and down. The ship (4) floats on the wave and moves the ship when it is a small wave to bring the position of the power point of the lever rod closer to the fulcrum and expands the action point. When it is a big wave, move the ship in the opposite direction to move the action point. In the case of a typhoon to be reduced, move to the port and use it for power generation by expanding the typhoon. Stakes (5) are installed on both sides of the ship to prevent the ship from tethering and lying down. The hydraulic elevating device (6) is attached to the ship, and the piston (7) of the elevating device is shortened at high tide to make the distance between the ship and the lever rod closer, and the elevating device piston (7) is lengthened at low tide. Operate according to the water level. The hydraulic fixing and unlocking machine (8) is attached to the upper part of the upper and lower devices, and is fixed to the lever bar so that it can be fixed, released and moved, and the power point is moved and changed according to the wave size. Close the fulcrum and enlarge the point of action. The strut (9) supports an insulator rod attached to the upper part of the dike. The fulcrum (10) supports the lever bar attached to the upper part of the column in a slidable manner. The lever rod (11) is attached to the column, and the fixing and release machine are connected to the power point. A piston is attached to the tip of the point of action, and the left and right lever bars slide by wave force. The joint (12) is a joint between a lever rod and a piston. The piston (13) moves up and down in conjunction with the lever rod attached to the lever rod. The air pump (14) is attached to the top and bottom of the insulator rod and sends air to the stored air compression tank. The storage air compression tank (15) is combined with an air pump, and several storage tanks are installed. Pipe (16) attaches to the stored air compression tank and injects air pressure into the turbine. The injection port (17) is the tip of the pipe. The valve (18) is a pressure open / close valve attached to the tip of the pipe. The turbine (19) is attached to the front of the injection port and is rotated by atmospheric pressure. The generator (20) is attached to the turbine and generates electricity by rotating the turbine.
本発明は電力生産を目標する波力拡大発電に関するものである。The present invention relates to wave power expansion power generation aimed at power production.
従来の発電機は石油、核燃料、水等の資源を大量に消費する、放射線漏れなどの環境公害。Conventional generators consume large amounts of resources such as oil, nuclear fuel, and water, and are environmental pollution such as radiation leaks.
本発明は上記の問題点に鑑み資源保存、自然環境と電力の確保を計る波力拡大発電を提供せんとするものである。In view of the above problems, the present invention is intended to provide wave power expansion power generation that saves resources, secures the natural environment and secures power.
波のある場所に堤防と段差付斜面を設置、堤防の上部に梃子を設置、船に上下装置を取り付ける、水位の上下に合わせる調整。上下装置の先端に固定と固定解除機を取り付けて梃子棒に移動自在に接続して、波の大きさに合わせて力点の位置の移動。梃子棒の作用点にエアーポンプを取り付けてエアーポンプで空気圧縮して気圧でタービンと発電機作動して発電する波力拡大発電An embankment and a stepped slope are installed where there is a wave, an insulator is installed at the top of the embankment, an elevating device is attached to the ship, and adjustments are made to adjust the water level up and down. A fixed and unlocking machine is attached to the tip of the lifting device and connected to the lever bar to move freely, and the position of the force point moves according to the magnitude of the wave. Wave power expansion that attaches an air pump to the action point of the insulator rod, compresses air with the air pump, and operates with the turbine and generator at atmospheric pressure to generate electricity
世は正に電化時代であり、将来は人口の増大と共に電力の需要が拡大するので産業界から必然的に求められる革命的な本発明である。The world is exactly the electrification era, and in the future, the demand for electric power will increase as the population grows, so this is a revolutionary invention inevitably required by the industry.
小波の場合は固定と固定解除機を解除して船を支点方向に移動させてから梃子棒の力点を固定して作用点の拡大、大波の場合は上記と逆方向に船と力点を移動させて作用点の縮小、満潮時の場合は上下装置のピストンを短くして船と力点の間を狭くする、干潮時の場合は上下装置のピストンを長くし船と力点の間を長くする、波力で船が上下移動して同時に梃子棒とエアーポンプが作動して貯蔵空気圧縮タンクの気圧が上がった時点で片方のバルブを開けて噴射してタービンと発電機の作動。タンクの気圧が消滅時に使用中のタンクのバルブを閉めて別のタンクのバルブを開ける操作を繰り返す。In the case of a small wave, the fixing and unlocking machine is released and the ship is moved in the direction of the fulcrum, and then the power point of the lever rod is fixed to expand the action point. In the case of high tide, the upper and lower unit pistons are shortened to narrow the space between the ship and the power point.At low tide, the upper and lower unit pistons are lengthened and the distance between the ship and the power point is increased. When the ship moves up and down by force and the lever rod and air pump are activated at the same time and the pressure of the storage air compression tank rises, one of the valves is opened and the turbine and generator are activated. When the tank pressure disappears, repeat the operation of closing the valve of the tank in use and opening the valve of another tank.
本発明によれば、燃料が不要なので経済的である、汚染の減少。According to the present invention, the reduction of pollution, which is economical because no fuel is required.
1・・堤防
2・・段差付斜面
3・・波
4・・船
5・・杭
6・・上下装置
7・・ピストン
8・・固定と固定解除機
9・・支柱
10・梃子の支点
11・梃子棒
12・ジョイント
13・ピストン
14・エアーポンプ
15・貯蔵空気圧縮タンク
16・パイプ
17・噴射口
18・バルブ
19・タービン
20・発電機1. ・ Like 2 ・ ・ Slope 3 with steps ・ ・ Wave 4 ・ ・ Ship 5 ・ ・ Pile 6 ・ ・ Piston 8 ・ ・ Piston 8 ・ ・ Fixing and unlocking machine 9 Insulator rod 12, joint 13, piston 14, air pump 15, storage air compression tank 16, pipe 17, injection port 18, valve 19,
Claims (1)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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JP2003436745A JP3962954B2 (en) | 2003-12-24 | 2003-12-24 | Power generation system |
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Application Number | Priority Date | Filing Date | Title |
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JP2003436745A JP3962954B2 (en) | 2003-12-24 | 2003-12-24 | Power generation system |
Publications (2)
Publication Number | Publication Date |
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JP2005188493A true JP2005188493A (en) | 2005-07-14 |
JP3962954B2 JP3962954B2 (en) | 2007-08-22 |
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JP2003436745A Expired - Fee Related JP3962954B2 (en) | 2003-12-24 | 2003-12-24 | Power generation system |
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JP (1) | JP3962954B2 (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101239053B1 (en) | 2006-05-08 | 2013-03-04 | 김변수 | Ocean energy generation system |
WO2015045055A1 (en) | 2013-09-26 | 2015-04-02 | 木村 光照 | Wave-power generation system, and transmission body and rotation conversion unit used therefor |
CN109681374A (en) * | 2017-10-18 | 2019-04-26 | 王子信 | Wave buoyancy and centrifugal force electricity generation system |
-
2003
- 2003-12-24 JP JP2003436745A patent/JP3962954B2/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101239053B1 (en) | 2006-05-08 | 2013-03-04 | 김변수 | Ocean energy generation system |
WO2015045055A1 (en) | 2013-09-26 | 2015-04-02 | 木村 光照 | Wave-power generation system, and transmission body and rotation conversion unit used therefor |
CN109681374A (en) * | 2017-10-18 | 2019-04-26 | 王子信 | Wave buoyancy and centrifugal force electricity generation system |
CN109681374B (en) * | 2017-10-18 | 2020-07-31 | 王子信 | Sea wave buoyancy and gravity power generation system |
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Publication number | Publication date |
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JP3962954B2 (en) | 2007-08-22 |
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