1292455 九、發明說明: 【發明$屬之技術領域】 一本發明係有關於一種發電動力設備,尤指一種利用水壓與空氣 浮力父互作動產生發電裝置之動能,並使排出之水量 少量之 「水壓式浮力動能裝置」。 , 【先前技術】 一般習用之發電設備,如水力發電設備係以攔栅水源頭形成 之水庫發電,利用水位之改變所產生之動能來推動發電設備旋轉 產生,電,因此只能利用一次水位之改變所產生之動能來發電, ,然電力公司可以將排出之水再抽回利用,係於離峰用電時段實 知,而且必須犧牲電能來抽回流出之水,此乃一般水庫式發電之 缺點。另請參閱附件丨至附件4之專利公告影本及發明公開公報, 其中: 附件1係「唧蓄浮力發電法」(公告編號:500874,申請案號 0^90113537),主要係供應電源於一空氣壓縮機1〇使其運轉,該空 士壓,機10則係將空氣輸入一鋼瓶20内儲存,該鋼瓶2〇内之壓 縮空氣則再藉由-導管22與-水槽30連接,並在該水槽3〇内底 部,管22所設之出氣口 24釋放空氣,釋放之空氣可逐一注入於 履帶36表面所設之空氣室格362内,同時產生浮力使該履帶祁 於上下傳動軸間轉動,使上傳動軸32驅動一發電機4〇運轉發電 附件2係「浮力動能機」(公開編號:2〇〇4〇8766,申請案號: 091134567),主要係將數具伸縮式浮筒丨固結於兩環形滑軌2ju、 22外側之傳送鏈條61、62上;當滑軌定位於水槽中時,置於兩滑 ,21、22j交寬鬆處之浮筒i即呈拉伸狀態並充入氣體,使其產生 淨力而沿著兩滑軌21、22之執道向上浮移,並帶動傳動鏈條61、 62轉動」當浮筒1繞行至兩滑執21、22頂端並接近兩滑軌較窄處 時:該浮筒1即逐漸受到壓縮並其内之氣體排出,導致浮筒i喪 失浮力受鍵條6卜62鶴影響向下沉移,進喊生動力,以供^ 1292455 電機或發電廠發電動力之來源。 附件3係「浮力會7能祕γ 091137245-¾) ^ : 上,待結合於傳動鏈條6 /7、二,亡f 1固結於兩傳動鏈條6、7 空氣,使其產生浮力而沿著兩傳動予』1張,^浮筒Μ 條6、7轉動,當浮筒1繞行至齒輪^ f Γί/ι並帶動鏈 導致浮筒1喪鮮力岭傳仙部王無錢之狀態, 傳動鏈條受到每具浮筒丨之帶^祕響向下沉移,使得 以供發電機或發電廠發電動力= 來源持續轉動’進而產生動力, ^2^686?^^ : 200512381 ^ 滅.隨25’,主要係於料 二月 1〇1;103 1〇4 105 ΓοΓ: 1〇Τ" 108,其主要之動作原理為: ΙΌί 沉 浮力1(3 WG2、1G3自水細向墙,利用 ②裝滿水之容器廟、1G5、⑽、1G7、⑽自密閉水槽頂向下 ③容器之上浮與下沉循-定輸道⑽與行 源源不斷的產生浮力。 n ^ 同時啟動空㈣縮機120與真空幫浦⑵;同時完成①、② 指令,使容器源源不絕的上浮與下沉。 始 上述的4個習知技術中的共通點都是利用壓縮空氣注入附件 1之空氣室格362内、壓縮空氣充入附件2、3之浮筒1内以及壓 縮空氣充入附件4之容器内,進而產生浮力,利用浮力產生上升 之動能而連動發電設備。此4種習之技術在還沒有產生發電之前 就必須要耗用能源運轉空氣壓縮機來壓縮空氣,換句話說如果是 在沒有任何能源之情況下,此4種發電裝置將無法使用,而且發 電之後必須耗用部份之能源用來驅動空氣壓縮機,因此發電量就 1292455 會減少,產生之動能或是發電無法百分之百儲存。 【發明内容】 習知利用浮力產生動能發電之裝置,在還沒有產生發電之前就 $須用能源,為的是驅動空氣壓縮機,以便能夠來壓縮空氣, 共應洋力設備所需之壓縮空氣,因此發電之後必須耗用部份之能 驅動空氣壓縮機,因此發電量就會減少,產生之動能或是 上電恶法百分之百儲存;此外,在沒有任何能源供應之情況下, 白知之浮力發電裝置將會無法使用。 發明係於水槽内設有兩浮筒,兩浮筒為一上一下之設置,且 ^ =筒間以鏈條相連,鏈條並繞經兩側之鏈輪,兩鏈輪内設有反 又置之單向軸承’鏈輪之轉軸以皮帶輪組連動兩相互嚙合之齒 :’其一齒輪連接一輸出軸,該輸出轴之鏈輪連動於發電機組; 本發明利用水槽内之水壓輸入蓄氣筒内將蓄氣筒之空氣推入最低 j置之浮筒内,使浮筒產生浮力而往上浮昇,另一最高位置之浮 j因空氣已流出至儲氣罩内,浮筒逐漸裝滿水產生重力,兩浮筒 上一下地交互作動,進而連動發電機組做為發電之動力來源。 本發明不需要藉助任何設備來產生空氣來供應浮筒,既可達到 降之作動,達到發電之目的,完全不需藉助額外之動力能源, 不浪費任何能源之條件下,使產生之動力完全轉變為發電之能 ,,而且只需輸入與排出蓄氣筒内之水即能完成循環之動作,壓 〕空氣進入浮筒内產生浮力,且排出之水仍可再循環利用,無論 任何場所只需要有水源既能運轉發電。 【實施方式】 請參閱第一 ♦、二、三圖所示,本發明水壓式浮力動能裝置主要 ,包含一水槽10,水槽10底部設一蓄氣筒n,於蓄氣筒u與頂 巧儲氣罩12之間設有滑柱組2卜22,供兩浮筒23、24容置, =汗筒23、24之間以鏈條31連接並繞經蓄氣筒u上之兩鏈輪 、33 ’兩鏈輪32、33内設有單向軸承,且兩鏈輪犯、33之單 向軸承係反向設置,使鏈條31上下滑動時僅能帶動單一鏈輪轉 I292455 j已級同步被開啟,空氣將被水逐漸擠壓入浮筒23内,而浮筒 内部之將會被空氣擠壓而由浮筒23底部往外排出至水槽10 =,直到浮筒23内充滿空氣並擺脫彈性失91之挾持力而往上浮 幵〇 立另*"1 位於^最高位置之浮筒24,其内部充滿空氣,由於浮筒24 =邛之單向氣閥52也同時受觸壓管54頂開形成開路狀態,使浮 间24内之空氣將流入頂部之儲氣罩12内,此時水槽1〇内之水亦 同步流入浮筒24内並推擠空氣流入儲氣罩12内,直到空氣完全 排出浮筒24外,且水亦同時充滿於浮桶24内。 前述頂部之儲氣罩12係位於水面下,儲氣罩12内將會充滿 水,當空氣由浮筒24流入儲氣罩12内時,儲氣罩12内之水將會 排出,空氣受到水壓而保存在儲氣罩内,同時因底部蓄氣筒u 在排入水時壓力較大,藉由單向閥571防止底部之空氣倒灌入頂 部之儲氣罩12内。 、 當位於最低位置之浮筒23往上浮昇時,鏈條31同步拉掣另一 位於最高位置之浮筒24往下沉移直到兩浮筒23、24之位置互相 倒置(如苐四圖所示),鏈條31在游動時同時驅動皮帶輪組34、 35 ’因為兩鏈輪32、33裝設單向軸承之故,僅有一側之鏈輪32 作動(暨浮昇部位之浮筒23側),另一鏈輪33產生空轉,因此上 升之浮筒23將會由皮帶輪組34連動輸出軸38,進而由鏈輪39 驅動發電機組40做為發電之動力來源。 請參閱第三、四、五圖所示,當最低位置之浮筒23往上浮昇 時,浮筒23之邊緣將會脫離繩索64,繩索64另端之球閥把手621 受到彈性元件63之拉掣而回復,使得水槽1〇與管體61呈封閉之 狀態,而蓄氣筒11則呈開啟之狀態,因此蓄氣筒u内之積水將 會被排出(排出無壓力能量之水,壓力能量(位能轉換為動能) 於擠壓空氣時被空氣吸收成為壓縮空氣並被擠入浮筒内),此時底 部之蓄氣筒11内之壓力降低,因此頂部蓄氣罩12内之空氣因水 壓之助力將會同步地被排入底部之蓄氣筒11内,如此浮筒之作動 1292455 將完成前半循環作動。 §浮肉.之後半循環作動: 相=,本發明浮筒後半循環之動作係與前半循環 上浮昇之同時亦同步由鏈條31連動另一位置 之星^ 儿洛,當浮筒23上昇至最高位置時,浮筒23上方 閥51受到受觸壓管53頂開形成開路狀態,使浮筒23内 淳之儲5罩12内,此時水槽10内之水亦同步流入 ^齊空氣流入儲氣罩丨2内,直到空氣完全排出浮筒 23内,且水亦同時充滿於浮桶23内。 Q1夕而姑另24 $步沉落於最低位置時,浮筒24將受到彈性夾 旁楚H立(如第六圖所示),而且浮桶24之邊緣將會壓掣繩 、’車;1:曰14 pf/、,所不),繩索64連動蓄氣筒11上方之單向氣閥13, 61 L幵 向f間13,同時索64之另端拉掣球閥62使管體 位能^換為二内之水藉由水壓而排入蓄氣筒11内(將 麵内部之缝,由於單向氣閥13已經同步 被水逐漸賴人浮筒24内,而浮筒24内部之水 锊L 私壓而由洋筒24底部往外排出至水槽10内,直到浮 疴充滿空氣並擺脫彈性夹91之挾持力而往上浮昇。 索同2七4往上浮昇時’浮筒24之邊緣將會脫離繩 藉,你索秘^另"^之球閥把手621受到彈性元件63之拉掣而回 之狀61呈封閉之狀態,而蓄氣筒11則呈開啟 t狀^因此畜_ 11内之積水將會被排出(排出無>1力能詈之 ^,堃力旎罝(位能轉換為動能)於擠屢空 擠^㈣,編11繼=== 而排入丨2内之空氣將會同步推頂單向間571 1292455 39 驅 π動發電機、組40運轉,做為發電 ^外與沉降,不斷地 =力式動能裝置運轉之實^^動力來源。 凊參閱第七圖所示,本發明將浮力 $動=置」,仍然可以達到驅動發電機組如為「重力 兩容器72、73上方設有觸動管721 容器72、73, ,80所設之單向閥8卜82對應,兩容器72、:目體70上方之蓄 水閥722、732,當容器73位於最高位置時,總之底部設有排 ^,令蓄水槽8G内之水流入容器73内,屋單向 閥722觸及底部之排水觸動管92時,容哭所設之排水 底部之儲水槽90内並適轉出箱体射j:; 會^至 ^滿適當水量轉有相當重力時,最低位 1 =谷=3 時排出完畢,並受到另-容器73以鏈條71之-72 亦同1292455 IX. Description of the invention: [Technical field of invention $ belongs to the invention] A invention relates to a power generation power plant, in particular to a kinetic energy for generating a power generation device by utilizing water pressure and air buoyancy, and the amount of water discharged is small. "Hydraulic buoyancy kinetic energy device". [Prior Art] Commonly used power generation equipment, such as hydropower equipment, uses the reservoir formed by the water source of the barrier to generate electricity. The kinetic energy generated by the change of the water level is used to promote the rotation of the power generation equipment, and electricity can only be used once. By changing the kinetic energy generated to generate electricity, the power company can pump back the discharged water, which is known from the peak electricity consumption period, and must sacrifice electric energy to pump back the water. This is the general reservoir power generation. Disadvantages. Please also refer to the Annexes to the Patent Bulletin and the Invention Gazette of Annex 丨 to Annex 4, where: Annex 1 is the “Storage Buoyancy Power Generation Law” (Announcement No.: 500874, Application No. 0^90113537), mainly supplying power to an air. The compressor 1 is operated, and the air compressor 10 is configured to store air into a cylinder 20, and the compressed air in the cylinder 2 is connected to the water tank 30 by the conduit 22, and At the bottom of the water tank 3, the air outlet 24 of the tube 22 releases air, and the released air can be injected into the air chamber 362 provided on the surface of the crawler belt 36 one by one, and buoyancy is generated to cause the crawler belt to rotate between the upper and lower drive shafts. The upper drive shaft 32 drives a generator 4, and the power generation accessory 2 is a "buoyer kinetic energy machine" (public number: 2〇〇4〇8766, application number: 091134567), which mainly consolidates a plurality of telescopic floats On the outer conveyor chains 61, 62 on the outer sides of the two annular slide rails 2ju, 22; when the slide rails are positioned in the water tank, the floats i placed on the two slips, 21, 22j, are stretched and filled with gas. Causing it to produce a net force along the two slides 21 The obstruction of 22 floats upwards and drives the drive chains 61, 62 to rotate. When the float 1 is wound to the top of the two slides 21, 22 and close to the narrower portions of the slide rails: the float 1 is gradually compressed and therein The gas is discharged, causing the buoyancy of the buoy i to lose its buoyancy by the impact of the key strips 6 and 62 cranes, and the power is turned into power for the power generation of the electric motor or power plant. Attachment 3 is "Buoyancy 7 Energy γ 091137245-3⁄4" ^ : On, to be combined with the drive chain 6 / 7, second, the dead f 1 is fixed to the two drive chains 6, 7 air, so that it generates buoyancy along Two transmissions are given to one piece, ^Float tube 66,7 rotates, when the pontoon 1 detours to the gear ^f Γί/ι and drives the chain to cause the pontoon 1 to be in a state of nostalgia, the transmission chain is subjected to Each pontoon belt has a secretive downward movement that allows the generator or power plant to generate power = the source continues to rotate 'and then generate power, ^2^686?^^ : 200512381 ^ off. With 25', mainly It is based on February 1〇1; 103 1〇4 105 ΓοΓ: 1〇Τ" 108. Its main principle of action is: ΙΌί Buoyancy 1 (3 WG2, 1G3 from water to the wall, using 2 filled with water The container temple, 1G5, (10), 1G7, (10) from the top of the closed water tank to the top of the 3 containers and the sinking-stationary channel (10) and the continuous flow of buoyancy. n ^ Simultaneously start the empty (four) shrinking machine 120 and the vacuum pump (2); Completion of the 1 and 2 commands at the same time, so that the source of the container is floating and sinking. The common points among the above four conventional techniques The compressed air is injected into the air chamber 362 of the accessory 1, the compressed air is filled into the float 1 of the accessories 2, 3, and the compressed air is filled into the container of the accessory 4, thereby generating buoyancy, and the buoyancy is used to generate the rising kinetic energy to generate electricity. Equipment. These four technologies must use energy to operate the air compressor to compress the air before power generation has occurred. In other words, if there is no energy, the four power generation devices will not be used. Moreover, after power generation, some energy must be used to drive the air compressor, so the power generation will be reduced by 1292455, and the generated kinetic energy or power generation cannot be stored 100%. [Disclosed] A device for generating kinetic energy by buoyancy is known. Energy is not required before power generation, in order to drive the air compressor so that it can compress the air and cope with the compressed air required by the foreign equipment. Therefore, it must consume part of the energy to drive the air compressor after power generation. Therefore, the amount of power generation will be reduced, and the kinetic energy generated or the power-up evil law will be stored 100%; in addition, there is no In the case of energy supply, Baizhi's buoyancy power generation device will not be used. The invention is equipped with two buoys in the water tank, the two buoys are set up one by one, and ^=the cylinders are connected by chains, the chains are wound by two The sprocket on the side, the two-sprocket wheel is provided with a reversed one-way bearing. The shaft of the sprocket is connected by a pulley set with two intermeshing teeth: 'a gear is connected to an output shaft, and the sprocket of the output shaft is linked to The invention utilizes the water pressure in the water tank to input the air in the gas storage cylinder into the float of the lowest j, so that the buoy can generate buoyancy and rise upward, and the float of the other highest position has flowed out to the air. In the gas storage hood, the pontoon is gradually filled with water to generate gravity, and the two pontoons are alternately operated on each other, thereby interlocking the generator set as a power source for power generation. The invention does not need any equipment to generate air to supply the buoy, and can achieve the purpose of power generation for the purpose of power generation, without any additional power energy, and without any waste of energy, the power generated is completely converted into The ability to generate electricity, and only need to input and discharge the water in the gas cylinder can complete the cycle action, press the air into the float to generate buoyancy, and the discharged water can still be recycled, no matter where the water source is needed It can run electricity. [Embodiment] Please refer to the first, second, and third figures. The hydraulic buoyancy kinetic energy device of the present invention mainly includes a water tank 10, and a gas cylinder n is disposed at the bottom of the water tank 10, and the gas storage cylinder u and the top gas storage gas Between the hoods 12, a spool group 2 is provided 22 for the two pontoons 23, 24 to be accommodated, and the chillers 23, 24 are connected by a chain 31 and circumvent the two sprocket wheels on the gas cylinder u, 33 'two chains One-way bearing is arranged in the wheels 32, 33, and the two-chain wheel and the one-way bearing of the 33 are reversely arranged, so that when the chain 31 slides up and down, only a single sprocket can be driven to turn the I292455 j level is turned on, the air will be The water is gradually squeezed into the pontoon 23, and the inside of the pontoon is squeezed by the air and discharged from the bottom of the pontoon 23 to the water tank 10 = until the pontoon 23 is filled with air and escaping from the elastic loss 91. The pontoon 24 located at the highest position of the ^ is filled with air, and the one-way air valve 52 of the pontoon 24 = 也 is also simultaneously opened by the contact pressure tube 54 to form an open state, so that the air in the floating chamber 24 Will flow into the top of the air hood 12, at which time the water in the sump 1 also flows into the pontoon 24 simultaneously. Pushing air flows into the gas cap 12, until the air is completely discharged outside the buoy 24, and at the same time also filled with water within 24 floats. The air hood 12 at the top is located below the water surface, and the air hood 12 will be filled with water. When the air flows from the pontoon 24 into the air hood 12, the water in the air hood 12 will be discharged, and the air is subjected to water pressure. It is stored in the gas storage hood, and at the same time, because the bottom gas cartridge u has a large pressure when discharging water, the one-way valve 571 prevents the bottom air from being poured into the top gas storage hood 12. When the pontoon 23 at the lowest position rises upward, the chain 31 synchronously pulls another pontoon 24 located at the highest position and sinks downward until the positions of the two pontoons 23, 24 are inverted with each other (as shown in FIG. 4), the chain 31 simultaneously drives the pulley sets 34, 35' while swimming. Because the two sprocket wheels 32, 33 are provided with one-way bearings, only one side of the sprocket 32 is actuated (the side of the buoy 23 of the floating portion), and the other chain The wheel 33 is idling, so that the rising pontoon 23 will be linked by the pulley set 34 to the output shaft 38, which in turn drives the genset 40 as a source of power for power generation. Referring to the third, fourth and fifth figures, when the lowest position of the float 23 rises upward, the edge of the float 23 will be disengaged from the rope 64, and the ball valve handle 621 at the other end of the rope 64 is pulled by the elastic member 63 to be restored. The water tank 1 is closed with the pipe body 61, and the gas cartridge 11 is opened, so that the water in the gas cylinder u is discharged (the water without pressure energy is discharged, and the pressure energy is converted into The kinetic energy is absorbed by the air as compressed air and squeezed into the pontoon when the air is squeezed. At this time, the pressure in the gas reservoir 11 at the bottom is lowered, so the air in the top gas hood 12 is synchronized by the pressure of the water pressure. The ground is discharged into the bottom of the gas cartridge 11, so that the operation of the float 1292455 will complete the first half of the cycle. §Float meat. After half cycle operation: Phase =, the action of the second half cycle of the pontoon of the present invention is synchronized with the lifting of the first half cycle simultaneously with the chain 31 interlocking with the star of the other position, when the pontoon 23 rises to the highest position The valve 51 above the pontoon 23 is opened by the contact pressure tube 53 to form an open state, and the inside of the pontoon 23 is stored in the cover 12, and the water in the water tank 10 also flows into the air hood 2 simultaneously. Until the air is completely discharged into the pontoon 23, and the water is also filled in the floating tub 23 at the same time. On the occasion of Q1 and the other 24 $ steps in the lowest position, the pontoon 24 will be placed next to the elastic clamp (as shown in the sixth figure), and the edge of the floating bucket 24 will be pressed against the reins, 'car; 1 : 曰 14 pf /,, no), the rope 64 interlocks the one-way air valve 13 above the gas storage cylinder 11, 61 L to the f between 13, while the other end of the cable 64 pulls the ball valve 62 to change the body position The water in the second water is discharged into the gas cartridge 11 by the water pressure (the seam inside the surface is closed, since the one-way gas valve 13 has been gradually separated by the water in the pontoon 24, and the water inside the pontoon 24 is privately pressed. The bottom of the ocean tube 24 is discharged to the outside of the water tank 10 until the floating raft is filled with air and lifted up from the holding force of the elastic clip 91. When the cable rises up from the 2-7, the edge of the pontoon 24 will be detached from the rope. The ball valve handle 621 of your ^^^^^^ is pulled by the elastic member 63 and the shape 61 is closed, and the gas cartridge 11 is opened t-shaped. Therefore, the water in the animal _11 will be discharged. (Exhausting no > 1 force can ^ ^, 堃 旎罝 (bit energy can be converted into kinetic energy) squeezed in the air ^ (four), edited 11 === and the air discharged into 丨 2 will be the same Pushing the one-way room 571 1292455 39 driving the π-kinetic generator, group 40 operation, as the power generation ^ outside and settlement, constantly = force kinetic energy device operation ^ ^ power source. 凊 see the seventh figure, this According to the invention, the buoyancy force can be reached, and the driving generator set can still be reached. For example, the two-tank valve 72, 73, 80 is provided with a contact tube 721, 72, 73, and 80. 72. The water storage valves 722 and 732 above the object 70. When the container 73 is at the highest position, the bottom is provided with a row, so that the water in the water storage tank 8G flows into the container 73, and the house check valve 722 touches the bottom. When draining the pipe 92, the water tank 90 at the bottom of the drain provided by Rong Cry is properly transferred out of the box. j: When the appropriate amount of water is transferred to the normal gravity, the lowest position 1 = valley = 3 is discharged. Finished, and subject to another - container 73 with chain 71 -72
91斗使得最高位置之容器73往下降落,*最低 H 上升移,鏈條71同時驅動發電機組4〇運轉而發電。谷在 請參閱第八圖所*’兩容器72、73分別到^最 時’亦如前述之動作,當最高位置之容器72觸動 :,令蓄水槽80内之水流人容器72内,另侧之J 低位置時由彈性夾91挾持,且盛滿水之容器73底部所設之 閥732觸及底部之排水觸動管93時,容器73内之水將會排 底部之儲水槽90内並適時排出箱体70外;當最高位置之容器π 盛滿適當水量而具有相當重力時,最低位之容器73内部之水°亦同 時排出完畢,並受到另一容器72以鏈條71之牽引而脫離彈性夾 91,使得最高位置之容器72往下降落,而最低位置之容器73往 上升移,鏈條71同時驅動發電機組40運轉而發電。 據此週而復始地循環運轉,得已不斷地產生動能且進行發電, 11 1292455 本實施例亦不需藉助任何動能設備暨可產生動能,僅排出容器内 之水暨能于斷地運轉,因此僅需有水源之場所暨能不斷地循環運 轉發電。7 綜 >上所述即可得知本發明不需要藉助任何設備來產生空氣來 供應洋筒,既可達到升降之作動,或是以重力式之實施例,容器 產生重力下降達到昇降產生動能,達到發電之目的,完全不 =藉助額外之動力能源,在不浪費任何能源之條件下,使產生之 循ΐΐίί變為發電之能源’而且只排出蓄氣筒内之水即能完成 ίΐΐϊϋ排出之水仍可再利用,完全改善f知技術過度浪 Κίϋίϊ"'?^氣_機之缺點’此外浮筒移動之行程 變,、、罙且境而改變水槽紐之高度’發電量相對改 性及_性’而且不論是在水庫、工廄、= ΐ用性4誠有水源之場所既可使本發明運轉發電,深; 、明專利之申請要件,緣依法㈣請。” f =圖,本發明之前視組合剖視圖 ^圖係本發明之側歧合剖視圖 :二圖係本發明之俯視組合剖視圖 f四圖係本發明兩浮筒作動之位置示咅圖 f五圖係本發明繩索之聯結示意圖〜 ί六圖係本發明浮筒作動示意圖 U蓄氣筒 13單向氣閥 21、22滑柱組 31、71鍵條 321、331 轉轴 【主要元4=動繼作動示意圖 10水槽 12儲氣罩 14連桿 23、24浮筒 32、33鏈輪 12 1292455 34、35皮帶輪組 38輸出軸 40發愈'機組 53、54觸壓管 571、81、82單向閥 62球閥 63彈性元件 65滑輪組 72、73容器 722、732排水管 90儲水槽 92、93排水閥 36、37齒輪 39鏈輪 51、52單向氣閥 57空氣導管 61管體 621把手 64繩索 70箱體 721、731觸動管 80蓄水槽 91彈性夾 13The 91 bucket causes the container 73 at the highest position to descend, *the lowest H rises, and the chain 71 simultaneously drives the generator set 4 to operate to generate electricity. In the eighth diagram, the two containers 72, 73 are respectively at the time of the last time, and the container 72 is touched at the highest position: the water in the water storage tank 80 is in the container 72, and the other side When the lower position of J is held by the elastic clip 91, and the valve 732 provided at the bottom of the container 73 full of water touches the drain touch tube 93 at the bottom, the water in the container 73 will be drained into the bottom tank 90 and timely discharged. Outside the box 70; when the container π at the highest position is filled with a proper amount of water and has a considerable amount of gravity, the water inside the lowest position container 73 is also discharged at the same time, and is pulled away from the elastic clip by the other container 72 by the chain 71. 91, the container 72 at the highest position is lowered, and the container 73 at the lowest position is moved upward, and the chain 71 simultaneously drives the genset 40 to operate to generate electricity. According to this cycle, the cycle is running back and forth, and the real estate has been able to generate electricity and generate electricity. 11 1292455 This embodiment does not need any kinetic energy equipment and can generate kinetic energy. Only the water in the container can be discharged and the ground can be operated. Therefore, only There are places with water sources and can continuously run and generate electricity. 7 In summary, it can be seen that the present invention does not require any equipment to generate air to supply the ocean tube, and can achieve the lifting action, or in the gravity type embodiment, the container generates gravity to reach the lifting and generating kinetic energy. To achieve the purpose of power generation, no = with additional power energy, without any waste of energy, make the resulting ΐΐ ί ̄ turn into the energy of power generation' and only discharge the water in the gas cylinder to complete the water Can still be reused, completely improve the knowledge of excessive technology. ϋ 缺点 Κ ' ' ' ' 缺点 缺点 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 此外 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮 浮'And whether it is in the reservoir, work, = use 4, there is a source of water can not only enable the operation of the invention to generate electricity, deep;, the application requirements of the patent, the legal (4) please. </ RTI> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; Inventive rope connection diagram ~ ί six diagrams of the present invention pontoon actuation diagram U gas cylinder 13 one-way air valve 21, 22 spool group 31, 71 key strip 321, 331 rotating shaft [main element 4 = dynamic operation diagram 10 sink 12 gas hood 14 connecting rod 23, 24 pontoon 32, 33 sprocket 12 1292455 34, 35 pulley set 38 output shaft 40 recovered 'unit 53, 54 contact pressure tube 571, 81, 82 check valve 62 ball valve 63 elastic element 65 pulley block 72, 73 container 722, 732 drain pipe 90 water storage tank 92, 93 drain valve 36, 37 gear 39 sprocket 51, 52 one-way air valve 57 air duct 61 pipe body 621 handle 64 rope 70 box body 721, 731 touch Tube 80 water storage tank 91 elastic clip 13