玖、發明說明: 【發明所屬冬技術領域】 本發明利用波浪對浮體施力,波浪施力方式與一般火力,核能發電蒸氣推 動渦輪發電或水力推動滿輪發電是不太一樣,首先波浪是上下行進,行進 到達一又距離後,折返回原點,其次有時不一定是固定距離,需要一種方 法使波浪有效轉換動力方式,本發明採用液壓傳達動力方式發電,建構一 個大型眺體,®柱翻4活塞,彺大細域底部及頂雜齡液壓油, 建構導管到輪型泵發電。 【先前技術】 眾所皆知,波岐-種麟,說先祕浪發f 式_傳達動力方 法過於繁複,傳動如過於繁複液壓能量在管路中經過曲折彎管到達流體栗 發電後損失傳触4或___方錢_電船方式,氣體經過管路 會有流失且不祕動大量,浮_體_小只能在面積規大的海洋裡 取一點能量θ (本發明解決手段) 本發明就賴先前發鄉祕騎闕,有,蚁高2献長 麵錄轉絲㈣料,裝料料或驗堤上,解決 發明,液壓控姆、統止逆_構造,麟傳糾過 中經過曲折彎管到達流體泵發電後損失傳動能量。阳里在s路 【發明内容】 參考第七圖, 200415309 一 •浮體1 一個能浮在水面上的長方體,浮體結構方向與海岸防波堤3c 成平行線,和波浪行進方向成垂直,和防波堤3(:位置相距2到5公尺内,浮 體構造為長方體型狀,長方體的有一斜板構造的侧邊1A&斜角邊,是在長 方體外侧,波浪往海岸衝擊方向,構造是用波浪衝擊海岸的推力,往浮體工 的底下堆送,及攬阻波浪使之浮體丨向上推高,使浮船朝上升高作用, 浮體體積和重量適當,能浮在水面上且有適當重量且能隨波浪浮力作用, 能使浮船提高,當浮體1在水面上,,吃水線1E大約在浮體的高度1B約在 -半位置,浮體高度1B約在二公尺,$體的寬航大約和波浪波軸波谷 1L之間距離的二分之-,九約三公尺寬,1D長度可延伸到五十到一百公 _ 尺。 浮體(1)作用職絲往海岸推進方式,由波峰18和波谷1L構造方式對 海岸推進,浮體1的浮力當波浪波峰1H到達浮體!底部時,浮力會把浮體1〜 推高,浮體1的重力隨波浪波峰1H過浮體i底部後,隨後波谷1L到達,浮· 體1底部海水懸空,沒有浮力支樓,浮體!的重量的重力,把浮體1下降 壓下到波谷1L的位置,波浪行進持續往海岸推進,形成—個連續的週期, 浮體1隨波浪浮力和重力週期作用,往上擡高位置後再往下降低位置在纟鲁 下降位置在上檯南位置,形成“個連績的週期性作用。 二.旋臂2是浮體1與海岸防波堤犯的固定栓柱3相連共有兩個旋臂2 右侧旋臂2A和左侧旋倾,旋臂2的-端2C焊死固定浮體i,旋臂2的後 端2D和海岸防波堤X的固定栓柱3中央位置有活動栓4拾住,是一個類似 人體關節個’可以活動但是牵連侧,連接浮體i和陸地的只能上下活 動,而前後和左右不能移動的類似手臂的形狀物。 旋臂2作用原理波浪的波峰1Η推高浮體1,旋臂2拉住浮體!而使波 9 200415309 浪推n浮體1 ’旋臂2的前端2C隨著提高位置,波浪的波谷後到達浮 體1下方海水懸空,浮體!失去浮力,重量重力使浮體丨下降,旋臂前端 2C連接讀1隨浮體丨重力下降,旋臂2的祕輯著下降位置❶ 一固定栓柱3是在陸地防波堤3C建照一個水坭建築物平臺3D,平臺 3D上建築兩個固定栓柱3分別是右細定栓柱3A和左侧定栓柱邪固 疋栓柱3不鏽鋼製鐵柱’固定检柱3為面向海面傾斜,傾斜角度是大約奶 度角或傾斜角度並無限制,共有兩侧定栓柱3Α,3β分別位於浮體i左右 側兩個旋臂2A,2B相對,右侧固定栓柱3八有活動栓4人栓住右侧旋臂2A, 左侧固定栓柱3B有活動栓4A栓住左側旋臂2B,每偭固定拾3共有三處活 動栓4A,4B,4C ’位置在中央二分之一地方有活動栓4A拴住旋臂後端2D, 固疋拴柱3除中央有活動栓4A外,上下相等長度距離的地方各有活動栓 4B,4C,上置活動栓4B和下置活動栓4C,上置活動栓4B到中央旋臂2銜〜 接的活動栓4A的長度距離相等於下置活動栓4C到中央旋臂2銜接的活動. 栓4A的長度距離,中間隔著旋臂2栓住卿筒油壓缸5&邱,上置活動栓狃 栓住上置唧筒油壓缸5A ,下置活動栓4C栓住下置啣筒油壓缸兕和中央活 動栓4A拾住旋臂後端2D,呈現底邊中央二分之一處到達頂角相等的三角形, 旋臂2是底邊中央二分之一處到達頂角相等長度的中線,固定栓柱3是三 角开>的底邊,上置唧筒油壓知:5A和下置卿筒油壓缸5B是三角形的兩個斜 逢,上置活動栓4B和下置活動拴4C及4D,與浮體相連活動栓4D,4E ,行 成三角形上的三個角。 固疋栓柱3作用原理浮體1因波浪向上檯高旋臂前端2C位置,固定拾 柱3的上置活動栓4B抵住施加於上置唧筒油壓缸5A的力量,浮體1因波 浪懸空重力向下壓低旋臂前端2C位置,固定拴柱3的下置活動栓4C抵住 200415309 施加於下置咕卩筒油壓缸5A的力量,固定拾柱3的上置活動栓4B和下置活 動栓4C,使固定拴柱3支撐住浮體1向上擡高旋臂2,力量施加於上置唧 筒油壓缸5A,或向下壓低旋臂,力量施加於下置唧筒油壓缸5B的力量0 四.活動栓4 能上下活動的接頭,兩個固定栓柱3A,3B有旋臂活動栓4A來 拾住旋臂後端2D,位置在固定栓柱3的上置活動栓4B到下置活動栓4C中央 位置二分之一位置,上置活動栓4B到中央旋臂2銜接的活動栓4A的長度距 離相等於下置活動栓4C到中央旋臂2銜接的活動栓4A的長度距離,上置活 動栓4B栓住上置唧筒油壓缸5A,位於旋臂2的上方斜邊,下置活動栓4C栓 0 住下置唧筒油壓缸5B,位於旋臂2的下方斜邊,三角形的兩個斜邊,上置 哪筒油壓缸5A的拉桿6A和下置唧筒油壓缸5B的拉桿6B及旋臂前端2C相交於 一點’在浮體1上有下置唧筒油壓缸5B的拉桿6B相交於一點地方有活動栓 4D, 4E來拾住浮體1與兩個拉桿6Α,ββ,活動检構造是一個能轉動裝置,如 同扣環一樣方式拴住拉桿及旋臂,拴住上置唧筒油壓缸54和拉桿6Α和拴住 , 下置唧筒油壓紅5Β和唧筒拉桿6Β。 五·啣筒油壓缸5及唧筒油壓缸拉桿6是一個圓柱狀中空圓筒構造物 體’内有活塞5C及相連拉桿6能伸縮推動液壓油,唧筒油壓缸5内的活塞 馨 5C刖有儲藏液壓油空間犯,儲藏液壓油空間证的底部有液壓油出入口邱吐 出或進入液壓油,活塞液壓油儲存空間诏内有液壓油填充及傳動施力,唧 筒拉桿6延伸到浮體1的活動栓4D,4E,唧筒拉桿β要伸縮進出唧筒油壓缸 5内及傳達動力給活塞5C,活塞%推進把活塞錄藏液壓油空間5£;,往液壓 油出入口5D,吐出液壓油,旋臂2上下侧有兩個唧筒油壓缸5及拉桿6, 上置唧筒油壓缸5Α拉桿6Α位置在旋臂2的上方,下置唧筒油壓缸5Β拉桿6Β 位翼在旋臂2的下方,成上下各有一個三角型狀,旋臂2為底邊二分之一 π 200415309 的點到的長度之中線,固定栓柱3為底,上㈣筒油壓缸从拉獅及 下置哪筒油壓缸5B拉桿6B為兩個斜邊,兩個斜邊和一個中線相交一點在浮 體活動栓4D,4E ’旋臂前端2C和浮體1是固定,活動栓从上旋臂後端2D可隨 波浪波峰職合1L,上下間活動,上置·油壓缸5赠筒拉稱a及下置唧 筒油壓缸5B哪筒拉桿6B也隨旋臂2傳動上下間活動,上置讀油壓缸5八唧 筒拉桿6A,和旋臂2呈上夾角,下置哪筒油壓缸5B货筒拉桿服,和旋臂2呈 下夾角,卿筒油壓缸5及補拉桿6的作用原理旋臂2A受浮體丨及波浪 推南位置’上置哪筒油壓缸5A銜接固定拾柱一端4B到浮體41)的距離縮短, 旋臂2A拉住浮體使上置唧筒油壓缸5A受浮力推進拉桿弘進入上置伸縮唧筒 油壓缸5A内,上置唧筒油壓缸5A液壓油儲存空間证内液壓油受活塞冗推送 動力往液壓出P5D吐出液壓油,上置卿筒油壓缸5A吐出液壓油,經管路7A 進入防波堤油壓缸8F,防波堤油壓缸8G也相等容量吐出液壓油,經管路7B 準入下置唧筒油壓缸5B,推出拉桿6B,上置唧筒油壓缸^受^^旱^推入的, 距離和吐出液壓油的容量,跟下置唧筒油壓缸5B受液壓油推出拉桿6B的距 離和進入液壓油的容量相等,旋臂2A受浮體丨及波浪推高位置,拉桿似進 入上置唧筒油壓缸5A多少距離,或上置唧筒油壓缸5A銜接固定拴柱一端4Β φ 到浮體4D的距離縮短多少距離,而使下置唧筒油壓缸邪推出拉桿邸多少距 離,或下置卿筒油壓缸5B銜接固定拾柱一端4C到浮體4E的距離增加多少距 離。 旋臂2A受旋臂2A受浮體1重量及波浪懸空降低位置,下置唧筒油壓缸5 B銜接固定拴柱一端4 C到浮體4E的距離縮短,旋臂2A拉住浮體使下置 哪筒油壓缸5B受重力推進拉桿6B進入伸縮下置唧筒油壓缸5B内,下置 唧筒油壓缸5 B液壓油儲存空間5E内液壓油受活塞5C推送動力往液壓出 12 200415309 口 5D吐出液壓油,下置,油壓缸印吐綠壓油,經管路π進入防波 堤油壓缸8G,防波堤油壓缸8F也相等容量吐出麵油,經管路以進入上 置’筒油壓缸5A,推出拉桿6A,下置_油壓缸5B受拉桿肪推入的距 離和吐綠獅的容量,跟上置⑽韻缸5A受液祕細拉桿Μ的距 離和進入液壓油的容量相等,也就是,同理旋臂2受浮體丨重量及波浪 懸空降低位置’拉桿6B進入下置哪筒油壓缸5B多少距離,或下置哪筒油 壓缸5B銜接固定拴柱一端4C到浮體4E的距離縮短多少距離,而使上置 ’筒油壓缸5A推出拉桿6A乡少距離,或上置哪筒油壓叙5A銜接固定拴 柱一端4B到浮體4D的距離增加多少距離。 二角形底邊目定錢,底邊之中央二分之_位制則的_相等,所組 成的任何賊的三角形,等角三角形,三角形,直角三肖形等等;它 的三個邊長總和是相等,去除底邊(底邊是固定不變)也就是三角形兩個- 斜邊總合是相等,把全部所組成任何角度三角形,把各個三角形底邊疊在、 一起放在平面上檢視,三角形的兩個斜邊,其中一個斜邊縮短距離時,另 一個斜邊就必然增加縮短斜邊距離,任何角度三角形兩個斜邊和是相等 由此得知 L三角形的底邊是固定拴柱3A的距離長度,固定拴柱3A的距離是固定不 變 2·三角形的底邊中央二分之一處,是固定拴桎从中央位置,也是旋臂銜 接處2D,兩個唧筒油壓缸銜接位置4B到4C的二分之一,上唧筒油壓缸銜 接位置4B到旋臂銜接位置4A,和下唧筒油壓缸銜接位置4C到旋臂銜接位 置4A是相等距離, 3·底邊之中央二分之一位置到頂角的距離相等是旋臂的距離長度 ,底邊之 13 中央一分之位置ϋ疋拾柱3A上兩個唧筒油壓缸銜接位置妨到4c的 二分之-,綱的距離是旋臂2A的長度,旋臂Μ的長度距離是固定相 4.三角形兩個斜邊,分縣均_壓叫及轉6a及下㈣油壓缸邪 及拉桿6B,在旋臂2A位置上方是上怖力胁^,在旋臂職置下方 是下卿筒油壓缸5B’可以伸縮的裝置是拉桿6八總進入或推出哪筒油壓 缸,也是縮短及增加距離。 5·三角形的頂角’為上唧筒油壓缸伸縮拉桿弘和下唧筒油壓缸伸縮拉桿 6B及旋臂2A相交於一點。 6. 把全部所組成任何角度三角形,把各個三角形底邊(固定拾柱職在一 起放在平面錢視’各個肖朗三角職在―起,頂肢侧不同位置 上,形成-個半圓形弧度的弧線,底邊二分之_⑽定拴枉⑽ 旋臂銜接處咖則的爾旋料—職)是蚊謂旋㈣的長 度),表示旋臂2A受波浪推動浮體丨,旋臂—端沈提高或降低所呈現各種 不同角度三角形純_錄撕疊在—起放在平面,頂肢布不同位置 上形成广辨®雜度的轉(㈣2A _端%㈣的位置)。 7. 三角形三個邊長總和是相等’去除底邊(底邊是固定栓柱3a)也就是三 角形兩個斜邊(上哪筒油· 5A及下哪筒油驗5B)總合是相等旋臂一 端2C提高或降低所呈現各種不同角度三角形底邊(固定拾柱)疊在一起放 在平面,此時各個三_兩個斜邊的和是相等的,上謂减及拉 Ρ縮短距離等於下哪筒油壓缸5Β及拉㈣增加距離也就是㈣拉 桿6Α進入上哪筒油壓缸5Α脑距離,等於由液壓油從下哪筒油壓缸诏 推出哪筒拉桿6Β增加距離,_τ_賴紅5Β離桿&Β縮短距離, 200415309 等於上唧筒油壓缸5A及拉桿6A增加距離,也就是唧筒拉桿册進入下唧 筒油壓缸5B縮短距離,等於由液壓油從上唧筒油壓缸5a推出拉桿觖增 加距離。 胃 8.由以上的證明;唧筒拉桿6Α退出唧筒油壓缸5Α之長度,與唧筒拉桿昍 進入哪筒油壓缸5Β之長度是等長,同理雜隨波浪向上縣㈣筒拉桿 6A&6B亦發生進出唧筒油壓缸5A&5B之長度亦是等長之現象。 參考第八圖 六•橡皮軟管7在唧筒油壓缸5液壓油出口5D處接管路到防波堤油壓缸g 一側,右側固定栓柱3Α及左侧固定栓柱3Β的上置唧筒油壓缸5Α及下置唧筒 · 油壓缸5Β共四條,設置液壓出口5D接有橡皮軟管7相通到防波堤油壓缸8 内,右侧固定栓柱3Α及左侧固定栓柱3Β的上置唧筒油壓缸5Α,有橡皮軟管 7Α相通到防波堤油壓缸8的上頂部8Α液壓入口8C,右侧固定检柱3Α及左侧 ’ 固定栓柱3Β的下置唧筒油壓缸5Β的橡皮軟管7Β,相通到防波堤油壓缸8的-下底部8Β液壓入口如,橡皮軟管7由_筒油壓叙5内活塞5C推動液壓油, 輸送動力到液壓油到防波堤油壓缸8内推動活塞8Ε。 七·防波堤油壓缸8形狀是長條中空圓柱體,底部8Β和頂部8Α有圓形蓋子 籲 密閉著,靠近底部8Β和頂部8Α侧邊圓柱體壁面,有底部液壓油出入口81)和 頂部液壓油8C出入口,有利於液壓油出入,防波堤油壓缸8和哪筒油壓缸5 間由橡皮軟管7兩端介面相連接,一端介面在唧筒油壓缸5液壓油出入口 5D ’另一端在防波堤油壓缸8液壓油出口處8C或8D,右侧固定栓柱3Α及左 側固定栓柱沌,有上置唧筒液壓缸5Α接一條橡皮軟管7Α到防波提油壓缸的 靠近頂部8Α的液壓出入口8C,右侧固定栓柱3Α及左側固定栓柱3Β有下置卿 筒油壓缸5Β,接一條橡皮軟管7Β到防波提油壓缸8的靠近底部8Β的液壓出 15 200415309 入口8D,共有四條橡皮軟管7,兩條由上置唧筒油壓缸5A連接橡皮管,經 匯合成一個管路後連接到防波堤油壓缸8的頂部8A,液壓油出入口肊,另 外兩條由下置唧筒油壓缸5B連接橡皮管7B,經匯合成一個管路後連接到防 波堤油壓缸的底部8B液壓油出入口8D,防波堤油壓缸8由液壓油入口8C 8D 分別在底部8B和頂部8A有一個圓孔凸出,外部有利於接橡皮軟管7,内有 中空儲存液壓油,中空處内有活塞8E區隔開上部房室卯及上部房室阢,液 壓充填之中,活塞8E底下中央有一拉桿10 ,拉桿10 —直往下延伸到防波 堤油壓缸8外,防波堤油壓缸8的下方有大型活塞缸9,大型活塞缸9内 有圓盤活塞9A,連接垂直在活塞圓盤圓形中央處。 防波堤油壓缸作用原理當上置唧筒液壓缸5A内活塞5C連結一唧筒拉桿 6A,進入唧筒油壓缸内,上置唧筒油壓缸5A内活塞5C往内部推入活塞液 壓油儲藏空間5E液壓油受活塞5C往内推入,液壓油經液壓油出入口5D吐出 液壓油,吐出液壓油經橡皮軟管7A,進入防波堤油壓缸卯靠近頂部一侧液 壓油出入口8C,往頂部活塞上方空間8F堆送,活塞的上方空間册充滿液壓 油,而液壓不斷的進入缸内,液壓油擴張把活塞浞往下推動,活塞犯往下 推動時,把活塞下方空間内液壓油8G,往底部一侧液壓油出入口8D吐出液 壓油’經橡皮軟管7B接到下置卿筒油壓缸5B的液屣油出入口5D,充填下置 唧筒油壓缸5B液壓油儲藏空間5E,把活塞5C和拉桿6B推出。 當下置唧筒液壓缸5B内活塞5C連結一唧筒拉桿6B進入唧筒油壓缸内,唧筒 油壓缸5B内活塞5C往内部推入,活塞前緣空間5E液壓油受活塞5C往内推 入,液壓油經液壓油出口5D吐出液壓油,經橡皮軟管7,進入防波堤油壓 缸靠近底部液壓油入口8D,往底部活塞下方空間8G堆送,活塞的下方空間 8G充滿液壓油,而液壓不斷的進入缸内,液壓油擴張把活塞视往上推動, 16 200415309 活塞8E往上推動時,把活塞上方空晴峨壓油,往頂部—織壓油出入 出液壓'由’經橡皮軟管接到上置哪筒油壓缸5A的液壓油出入口 5D ’充填上置呀筒油壓紅5A液壓油儲藏空間5E,把活塞5C和轉6A推出。 大!活塞缸9大型活塞缸9位於油壓缸8的下方是個大體積的圓柱 體’大型魏缸崎面為眺驗,裡面裝滿顏油,是主要的蓄能體, 再圓柱體中央有-大型_盤活塞9A,把大型活塞虹分隔成上方空間9D及 下方空間9E,圓盤活塞9A的上面在圓盤中央部分有垂直直立著一拉桿1〇, 經過大型活塞紅頂部册只有拉桿通過的有〇型環迫緊的圓孔,進入防波堤油 壓缸8内和防波堤油壓缸的活塞拙相連接,大型活塞缸内壁靠近頂部册圓 柱體侧邊,有液壓油出口9F和液壓油回流入口9G,靠近底部9C圓柱體侧邊 有液麇油出口91和液壓油回流入a9J,形狀為圓形孔,有利於排出或吸入 液壓油,大型活塞缸9位於防波堤油壓缸8的下方,兩個大小垂真緊密相 連隔著兩個缸體相通圓孔,有共通的拉桿連接大小活塞圖盤gA,8E。 大型活塞缸的作用液壓油從頂部液壓油出入口 8C進入防波堤油壓缸上方 空間8F内,把防波堤油壓缸内的活塞8E和它相連拉桿10往下壓低,拉桿1〇 往下牽動延伸至大形活塞缸内的圓盤活塞9A垂直連結,也隨著往下壓低, 大型活塞缸的圓盤活塞下方空間9E内受圓盤活塞9A往下推動,下方空間9E 艘積縮小的作用,大型活塞缸靠近底部9C圓柱侧邊附近有液壓油出口91, 液壓油出口排出液壓油,圓盤活塞的上方空間90,受圓盤活塞9A枉下的作 用體積增加,大型活塞靠近頂部圓柱侧邊9B附近有液壓油回流入口9G,吸 入液壓油補充圓盤活塞上方空間液壓油。 液壓油從底部液壓油出入口8D進入防波堤油壓缸内,把防波堤油壓缸下方 空間8D内的活塞8E和它相連拉桿10往上推高,拉桿牵動延伸至大形活塞缸 17 200415309 内的圓脑塞麵直連結也隨著往上升高,大伽塞缸_盤活塞上方空 間9D内’受圓盤活塞9A往上推動’上方空_體積縮小的作用大型活塞 靠近頂部_枉侧邊附近有液壓_n9F,_油心排綠壓油,圓盤 活塞9A的下方娜E’受H魅舰彺场·,體_加賴活塞靠近 底部9C圓柱侧邊附近有液壓油回流入口9J,吸入液壓油補充圓盤活塞臥下 方空間9E液壓油。 參考第九圖 九·止逆閥門11大型活塞缸頂部液壓油出口卵裝置有止逆闕門11A,及底 部液壓油出口91裝置有止逆_UB,止逆_管路外觀細方體盒子構 · 造’裝置底部9C和頂部9B圓柱體侧邊外壁,液壓油出口是圓形孔,圓札外 有四方體盒子虡造包裹著,止逆閥門Π構造由有四方體盒子構造包裹著 11C,裡面構件有一個圓形的蓋子UD,圓形蓋子蓋住液壓油出口邪及91, 蓋子11D中央上有垂哀一連桿11E延伸至四方體盒子構造ης外,圓盤iid垂· 直裝置連桿11E延伸處,四方體盒子hc有一圓孔,只能連桿通過到盒子外 面,四方體盒子構造外連桿上裝置著彈簧11F,彈簧彈力使蓋子11D輕壓注 液壓油出口9F及91,止逆閥門有圓形蓋子閥門11D構造堵住液壓油,不會由 籲 外側進入大型活塞缸9内,位於止逆閥門側邊有圓形導出出〇11G*Y型管 路12B相連’液屬油推該蓋子閥miD後,有止逆闕圓形導出口 11G,引導 液壓油進入Y型管路12内,位於大型活塞缸頂部止逆閥門位於下方侧邊 進入Y型管路内12A,位於大型活塞缸底部止逆閥門11B位於上方侧邊進入γ 型管路12B ’液壓油不逆流回大型活塞缸内,只有大型活塞缸内圓盤活塞9八 往頂部9B或底部9C推送,液壓油壓力升高把閥門HD推開,閥門11D受壓後 退到底,液壓油順利從液壓出口9F或91吐出,圓盤活塞9A不在繼續前進, 18 200415309 圓盤活塞前進方向前魏壓油,受壓降低液壓油不再往液壓油出 送出,閥門連桿11E外延止逆閥門外上彈簧⑽,彈力使閥門UD蓋上液壓油 出口9F或91,把止逆閥門1师回原處,使液壓油出口即或91閉鎖。 止销Η侧原理大型活塞缸_無塞9Α受拉柳往下推動,圓盤活 塞下面空_體積縮小,麵雜下面部m祕,受瞧活舰往下推 動作用,底部液壓油出口di吐出液壓油,液壓油把止逆闕門11B的圓形閥門 蓋子11D推開,閥門蓋子退回到底,和蓋子相連的連桿11£受液壓油吐出力 量,往止逆閥門的盒子構造11C上連桿伸出圓孔外,彈簧1巧受力拉開,圓 盤活塞的上方空_,受_活塞11A往下推動作用,活塞的上方空_D · 體積增大,頂部液壓油入ti9G受圓盤活塞9A的上方空間體積9D增大作用, 大型活塞缸的上方空間呈吸入狀態,液壓油推開液壓回流止逆閥門的閥 門16D,從液壓油入口9G進入大型活寨缸内,補充大型活塞缸上方空間nD,, 止逆闕門蓋子11A受連桿四方體盒子外裝置彈簧11F的彈力,及大型活塞缸- 的上方空間9D内吸入作用,堵住液壓油出口9F,阻隔液壓油從外部進入大 型活塞缸内。 大型活塞缸内圓盤活塞9A受拉桿10往上推高,活塞上面空間9D體積縮小,籲 圓盤活塞上面空間9D液壓油,受圓盤活寨9A往上推動作用,頂部液麗油出 口9F吐出液壓油,液壓油把止逆閥門HA的圓形閥門蓋子11D推開,閥門蓋 子退回到底和蓋子相連的連桿11E,受液壓油吐出力量,往止逆閥門的盒子 構造11C上連桿伸出圓孔外,彈簧11F受力拉開,圓盤活塞的下方空間9E,说明 、 Explanation of the invention: [Technical field of the invention in which the invention belongs] The present invention uses waves to apply force to the floating body. The method of applying waves to waves is different from general thermal power. Nuclear power generation steam drives turbine power generation or hydraulic power drives full power generation. First, the waves are It travels up and down. After reaching a distance again, it returns to the origin, and sometimes it is not necessarily a fixed distance. A method is needed to effectively transform the power of the wave. The present invention uses hydraulic power transmission to generate power and construct a large overlooking body. The column is turned over 4 pistons, the bottom of the large fine area and the top of the mixed age hydraulic oil, the construction of a duct to a wheel pump to generate electricity. [Prior art] As everyone knows, Boqi-Zhonglin said that the first secret wave hair f-type _ conveying the power method is too complicated, and the transmission is too complicated. The hydraulic energy passes through the tortuous tube in the pipeline to the fluid pump to generate power. Touch 4 or ___ square money _ electric boat method, the gas will be lost through the pipeline without moving a large amount, the floating body can only take a little energy θ in the ocean with a large area (the solution of the present invention) The present invention relies on the previous secret rider of the township, including: Ant High 2 offers long-face recording and reeling materials, loading materials or dyke inspection. The invention solves the invention, hydraulic pressure control, unified anti-reverse structure, Lin Chuan correction In the meantime, the transmission energy is lost after passing through the meandering tube to the fluid pump to generate electricity. Yangli on s Road [Content of the Invention] Refer to the seventh figure, 200415309 I. • Floating body 1 A cuboid that can float on the water. The direction of the floating body structure is parallel to the coast breakwater 3c, perpendicular to the direction of wave travel, and the breakwater. 3 (: within 2 to 5 meters of the distance, the floating body is constructed in the shape of a cuboid, the side of the cuboid has a sloping plate structure 1A & beveled edge, which is outside the cuboid, the wave hits the coast, and the structure is made of waves The thrust force that hits the coast is piled under the buoyant, and the wave is blocked to make the buoy 丨 pushed up to make the pontoon rise upward. The buoyant has the proper volume and weight, and can float on the water with a suitable weight. And it can follow the buoyancy of the wave, which can make the pontoon rise. When the buoyant body 1 is on the water surface, the waterline 1E is about the half height of the buoyant body height 1B, and the buoyant body height 1B is about two meters. The distance between the wide navigation and the wave valley 1L is two-half, nine is about three meters wide, and the length of the 1D can be extended to fifty to one hundred meters. The buoyant body (1) acts as a way to advance the coast, Constructed from crest 18 and trough 1L Coastal advancement, buoyancy of buoyant body 1 When the wave peak 1H reaches the buoyant body! At the bottom, the buoyancy will push the buoyant body 1 ~ up, the gravity of the buoyant body 1 after the wave peak 1H passes the bottom of the buoyant body i, and then the trough 1L arrives. The seawater at the bottom of the buoyant body 1 is suspended. There is no buoyancy support, the weight of the buoyant body! The weight of the buoyant body 1 is lowered down to the position of the trough 1L, and the waves continue to advance to the coast, forming a continuous cycle. Body 1 follows the wave buoyancy and the period of gravity. It rises upwards and then lowers down. At the lowering position of Jairu, it is at the upper Tainan position, forming a cyclical effect of two consecutive victories. 2. Rotating arm 2 is floating body 1. There are two spiral arms 2 connected to the fixed peg 3 of the coast breakwater. The right spiral arm 2A and the left spiral tilt. The -end 2C of the spiral arm 2 welds the fixed floating body i, the rear end 2D of the spiral arm 2 and the coast. The fixed bolt 3 of the breakwater X is picked up by a movable bolt 4 at the center of the fixed bolt 3, which is similar to a human joint. It can move but is involved in the side. It can only move up and down while connecting the floating body i and the land. The shape of the wave. 1Η Raise the floating body 1, and the spiral arm 2 pulls the floating body! And the wave 9 200415309 The wave n pushes the floating body 1 'The front end 2C of the spiral arm 2 increases with the position, the wave trough reaches the seawater below the floating body 1, Floating body! Loss of buoyancy, weight and gravity make the floating body 丨 descend, the front end of the spiral arm 2C is connected to read 1 with the floating body 丨 gravity drops, the secret position of the spiral arm 2 is descending position ❶ a fixed peg 3 is a photo of the land breakwater 3C A leeway building platform 3D. The two fixed bolts 3 on the platform 3D are the right thin fixed bolt 3A and the left fixed bolt. The solid iron bolt 3 is made of stainless steel and the fixed check pillar 3 faces the sea. Tilt, tilting angle is about milk degree angle or tilting angle without limitation. There are two fixed bolts 3A and 3β on the left and right sides of the floating body i. The two rotating arms 2A and 2B are opposite to each other. 4 people bolted the right arm 2A, the left fixed bolt 3B has a movable bolt 4A to the left arm 2B, and there are three movable bolts 4A, 4B, 4C in each fixed position. There is a movable bolt 4A in one place to fasten the back end 2D of the spiral arm, and the fixed bolt 3 is equal to the upper and lower except the movable bolt 4A in the center. There are movable bolts 4B, 4C, 4B, 4B, 4C, and 4C. The length of the 4B from the upper movable bolt to the central arm 2 is equal to the length of the lower movable bolt. 4C to the center of the swing arm 2 activities. The length of the bolt 4A, in the middle of the swing arm 2 bolts Qing cylinder oil cylinder 5 & Qiu, the upper activity bolt 狃 to the upper cylinder oil cylinder 5A, lower The movable bolt 4C bolts the lower cylinder hydraulic cylinder 兕 and the central movable bolt 4A to pick up the rear end 2D of the rotary arm, showing a triangle that reaches the same vertex angle at the center half of the bottom side, and the rotary arm 2 is the second center of the bottom side One point reaches the centerline of equal length at the vertex angle. The fixed bolt 3 is the bottom of the triangle opening. The oil pressure of the upper cylinder is known: 5A and the lower cylinder 5B are two triangles. The upper movable bolts 4B and the lower movable bolts 4C and 4D are connected to the floating body and the movable bolts 4D and 4E form three corners on a triangle. The principle of the anchor pin 3 is that the floating body 1 is raised to the front end 2C position of the upper arm by the wave. The upper movable pin 4B of the fixed pickup 3 resists the force applied to the upper cylinder oil cylinder 5A. The suspended gravity pushes down the 2C position of the front end of the swing arm, and the lower movable bolt 4C of the fixed bolt 3 resists the force exerted on the hydraulic cylinder 5A of the lower grunt cylinder by 200415309. The upper movable bolt 4B and the lower fixed bolt 3 of the fixed column 3 are fixed. Set the movable bolt 4C to make the fixed bolt 3 support the floating body 1 to raise the swing arm 2 upward, and the force is applied to the upper cylinder oil cylinder 5A, or the lower arm is lowered, and the force is applied to the lower cylinder oil cylinder 5B. The strength of the four. The movable bolt 4 can be moved up and down joints, two fixed bolts 3A, 3B have a spiral arm movable bolt 4A to pick up the rear end 2D of the spiral arm, the position of the upper movable bolt 4B of the fixed bolt 3 to The middle position of the lower movable bolt 4C is one-half, and the length of the movable bolt 4A connected by the upper movable bolt 4B to the central arm 2 is equal to the length of the movable bolt 4A connected by the lower movable bolt 4C to the central arm 2 Distance, the upper movable bolt 4B bolts the upper cylinder hydraulic cylinder 5A, which is located on the upper beveled side of the swing arm 2, and the lower movable 4C Bolt 0 Hold the lower cylinder hydraulic cylinder 5B, which is located on the lower side of the swing arm 2 and the two hypotenuses of the triangle. Which cylinder cylinder 5A is the upper rod 6A and the lower cylinder cylinder 5B is 6B And the front end 2C of the swivel arm intersect at one point. On the floating body 1, there are pull rods 6B of the lower cylinder hydraulic cylinder 5B. At one point, there are movable bolts 4D and 4E to pick up the floating body 1 and the two pull rods 6A, ββ. The inspection structure is a rotatable device that fastens the tie rod and the swing arm in the same manner as a buckle, fastens the upper cylinder hydraulic cylinder 54 and the tie rod 6A, and bolts, and lower the lower cylinder oil pressure red 5B and the cylinder barrel 6B. V. The armature hydraulic cylinder 5 and the cymbal hydraulic cylinder tie rod 6 are a cylindrical hollow cylinder structure object with a piston 5C and a connecting rod 6 that can telescopically push the hydraulic oil. The piston Xin 5C in the cylinder hydraulic cylinder 5 There is a criminal who stores hydraulic oil. There is a hydraulic oil inlet and outlet at the bottom of the storage hydraulic oil space. Qiu spit out or enter the hydraulic oil. The hydraulic oil storage space of the piston is filled with hydraulic oil and the transmission force is applied. The cylinder rod 6 extends to the floating body 1. The movable bolts 4D and 4E, the telescopic rod β should be retracted into and out of the hydraulic cylinder 5 of the cylinder and transmit the power to the piston 5C. The piston pushes the piston to store the hydraulic oil space 5 £; to the hydraulic oil inlet and outlet 5D, spit the hydraulic oil, rotate On the upper and lower sides of the arm 2, there are two cylinder hydraulic cylinders 5 and tie rods 6. The upper cylinder hydraulic cylinder 5A and the tie rod 6A are located above the rotary arm 2. The lower cylinder hydraulic cylinder 5B and the tie rod 6B are positioned below the rotary arm 2. There is a triangle shape on the upper and lower sides, the arm 2 is the midline of the length of the bottom half π 200415309, the fixed bolt 3 is the bottom, and the upper cylinder oil cylinder is pulled from the lion and the lower part. Which cylinder of hydraulic cylinder 5B tie rod 6B has two hypotenuses, two hypotenuses It intersects with a center line at the floating body movable bolt 4D, 4E. The front end of the spiral arm 2C and the floating body 1 are fixed. The movable bolt from the rear end of the upper arm 2D can follow the wave crest 1L, and it can move up and down. The hydraulic cylinder 5 gives the cylinder pull scale a and the lower cylinder hydraulic cylinder 5B, which cylinder rod 6B also moves with the upper and lower arms of the rotary arm 2. The upper hydraulic cylinder 5 eight cylinder cylinder rod 6A is at an angle with the rotary arm 2. , Which cylinder of hydraulic cylinder 5B cargo barrel tie is placed at a lower angle with the swing arm 2, the principle of the function of the cylinder 5 and the tie rod 6 is that the swing arm 2A is received by the floating body and the wave is pushed south. Which cylinder 5A is connected to the end of the fixed pick-up column 4B to the floating body 41), the swing arm 2A pulls the floating body so that the upper cylinder hydraulic cylinder 5A is pushed into the upper telescopic cylinder hydraulic cylinder 5A by the buoyancy push rod. Inside, the upper cylinder oil cylinder 5A hydraulic oil storage space certificate, the hydraulic oil is driven by the piston redundant push power to the hydraulic output P5D to discharge the hydraulic oil, the upper cylinder oil cylinder 5A to discharge the hydraulic oil, through the pipeline 7A into the breakwater hydraulic cylinder 8F, the hydraulic cylinder 8G of the breakwater also discharges hydraulic oil with the same capacity, and enters the lower cylinder hydraulic cylinder 5B through the pipeline 7B. 6B, the upper cylinder hydraulic cylinder ^ received by ^ ^ drought ^ pushed in, the distance and the capacity of the discharged hydraulic oil, and the lower cylinder hydraulic cylinder 5B pushed by the hydraulic oil push rod 6B the distance and the capacity of the hydraulic oil, The arm 2A is pushed up by the floating body 丨 and the wave, and the rod seems to enter the upper cylinder hydraulic cylinder 5A by how much distance, or the upper cylinder hydraulic cylinder 5A is connected to the end of the fixed bolt 4B φ and how much the distance is shortened from the floating body 4D. How much distance does the lower cylinder hydraulic cylinder push out the lever rod, or the distance between the lower cylinder hydraulic cylinder 5B and the fixed pick-up end 4C to the floating body 4E. The swing arm 2A receives the weight of the floating body 1A and the wave suspension lowering position. The lower cylinder hydraulic cylinder 5 B is connected to one end of the fixed bolt 4 C and the distance to the floating body 4E is shortened. The swing arm 2A pulls the floating body to lower it. Which cylinder of hydraulic cylinder 5B is pushed by gravity to push the lever 6B into the telescopic lower cylinder hydraulic cylinder 5B, and the lower cylinder hydraulic cylinder 5 B hydraulic oil storage space 5E is pushed by the piston 5C to the hydraulic outlet 12 200415309. 5D spit out the hydraulic oil, and the hydraulic cylinder prints green hydraulic oil. It enters the breakwater hydraulic cylinder 8G through the pipeline π, and the breakwater hydraulic cylinder 8F also discharges the surface oil with the same capacity, and enters the upper cylinder hydraulic cylinder through the pipeline. 5A, put out the lever 6A, the distance of the lower cylinder _ hydraulic cylinder 5B is pushed by the lever rod and the capacity of the green lion is equal to the distance of the upper cylinder 5A receiving the liquid slender rod M and the capacity of the hydraulic oil, That is, the same reason for the swing arm 2 receiving the floating body 丨 the weight and the wave suspension lowered position 'how much distance does the drawbar 6B enter the lower cylinder 5B, or which lower cylinder 5B is connected to the end of the fixed cylinder 4C to the floating How much the distance of the body 4E is shortened, and the upper cylinder 5A is pushed out by the tie rod 6A Less distance, which is set on the cylinder or hydraulic classification 5A column adapter fixed end tied to the distance from the float 4B 4D what distance increases. The base of the two sides is fixed, and the central half of the bottom side is equal to the _ bit rule. Any thief's triangle, isosceles triangle, triangle, right triangle, etc .; Are equal, remove the bottom edge (the bottom edge is fixed), that is, the two triangles-the combination of the hypotenuse is equal, all the triangles are formed at any angle, and the bottom edges of the triangles are stacked together and viewed on a plane, The two hypotenuses of the triangle, when one of the hypotenuses shortens the distance, the other hypotenuse will inevitably increase the distance of the hypotenuse. The sum of the two hypotenuses of the triangle at any angle is equal. This shows that the bottom of the L triangle is a fixed anchor. The distance length of 3A, the distance of the fixed bolt 3A is fixed. 2 · The center half of the bottom of the triangle is the fixed bolt from the central position, which is also the joint of the swing arm. The two cylinders are connected by the hydraulic cylinder. One half of positions 4B to 4C, the upper cylinder hydraulic cylinder engagement position 4B to the arm joint position 4A, and the lower cylinder hydraulic cylinder engagement position 4C to the arm joint position 4A are equal distances, 3. the center of the bottom edge Half position The distance between the top angles is equal to the length of the swing arm. The bottom of the center is 13 points. The position of the two cylinders on the pick-up column 3A is two-half of 4c. The distance between the arms is 2A. The length distance of the arm M is the stationary phase. 4. The two hypotenuses of the triangle are divided into two counties: pressure and turn 6a, and the hydraulic cylinder and lever 6B. Above the position of the arm 2A is the upward force. Under the position of the swing arm is the lower cylinder hydraulic cylinder 5B '. The retractable device is the cylinder which the tie rod 68 enters or pushes out. It also shortens and increases the distance. 5. The top angle of the triangle is the intersection of the upper cylinder hydraulic cylinder telescopic rod Hong and the lower cylinder hydraulic cylinder telescopic rod 6B and the swing arm 2A at a point. 6. Put all the triangles at any angle, and place the bottom of each triangle (fixed pick-up posts together on a flat surface, as shown in the figure below). Each Xiaolang triangle post is formed at a different position on the side of the top limb to form a semicircle. The arc of a radian, the bottom half of which is _ 枉 ⑽ 定 枉 ⑽ 枉 ⑽ The spiral arm joint at the joint is the length of the spinner—the length is the length of the mosquito, which means that the spiral arm 2A is pushed by the wave to push the floating body 丨, the spiral arm— Dull sinking raises or lowers the pure triangles of various angles that are presented at different angles. They are stacked on a flat surface, and the top limb cloth is formed at different positions to form a wide-angle ® hybrid rotation (㈣2A _ 端% ㈣ position). 7. The sum of the lengths of the three sides of the triangle is equal. 'The bottom edge is removed (the bottom edge is the fixed bolt 3a), which is the sum of the two hypotenuses of the triangle (which cylinder is 5A and which cylinder is 5B). The end of the arm 2C raises or lowers the bottom of the triangle (fixed pick-up column) presented at various angles stacked on the plane. At this time, the sum of the three three hypotenuses is equal. The lower cylinder 5B and the pull cylinder increase the distance, that is, the distance between the cylinder 6A and the upper cylinder 5A, which is equal to the hydraulic cylinder from which the lower cylinder 6B pushes out the cylinder 6B to increase the distance, _τ_ Lai Hong 5B shortens the distance from the lever & B, 200415309 is equal to the increase in the distance between the upper cylinder hydraulic cylinder 5A and the tie rod 6A, that is, the reduction of the distance between the cylinder pull rod into the lower cylinder hydraulic cylinder 5B, which is equal to the hydraulic oil from the upper cylinder hydraulic cylinder. 5a introduced the lever 觖 to increase the distance. Stomach 8. From the above proof, the length of the cylinder cylinder 6A exiting the cylinder cylinder 5A is equal to the length of the cylinder cylinder 5B which cylinder cylinder 昍 enters. The length is the same as that of the cylinder cylinder 6A & 6B. There is also a phenomenon that the lengths of the hydraulic cylinders 5A & 5B entering and exiting the cylinder are equal. Refer to the eighth figure 6. The rubber hose 7 is connected to the side of the breakwater hydraulic cylinder g at the hydraulic oil outlet 5D of the cylinder hydraulic cylinder 5 to the side of the breakwater hydraulic cylinder g, and the upper cylinder hydraulic pressure on the right fixed bolt 3A and the left fixed bolt 3B. There are four cylinders 5A and lower cylinders. There are four hydraulic cylinders 5B. The hydraulic outlet 5D is connected with rubber hose 7 to communicate with the hydraulic cylinder 8 of the breakwater. The upper cylinder 3A on the right side and the upper cylinder 3B on the left side. The hydraulic cylinder 5A has a rubber hose 7A communicating to the upper top 8A hydraulic inlet 8C of the breakwater hydraulic cylinder 8. The right side fixed detection column 3A and the left side fixed cylinder 3B. The tube 7B communicates with the hydraulic inlet of the bottom hydraulic cylinder 8 of the breakwater. For example, the rubber hose 7 is driven by the inner piston 5C of the hydraulic cylinder 5 and the hydraulic oil is transmitted to the hydraulic cylinder 8 of the breakwater. Piston 8E. 7. The breakwater hydraulic cylinder 8 is a long hollow cylinder. The bottom 8B and the top 8A have round lids. They are closed. Close to the bottom cylinder wall of the bottom 8B and the top 8A. There is a bottom hydraulic oil inlet and outlet 81) and the top hydraulic pressure. The oil 8C inlet and outlet is conducive to the hydraulic oil in and out. The breakwater hydraulic cylinder 8 and which cylinder 5 are connected by rubber hose 7 interfaces at one end, and one interface is at the hydraulic oil inlet and outlet 5D of the cylinder hydraulic cylinder 5. The other end is at Breakwater hydraulic cylinder 8 Hydraulic oil outlet 8C or 8D, the right fixed bolt 3A and the left fixed bolt are chaotic, there is an upper cylinder hydraulic cylinder 5A connected with a rubber hose 7A to the top of the wave lift hydraulic cylinder 8Α The hydraulic inlet and outlet 8C, the right fixed bolt 3A and the left fixed bolt 3B have a lower cylinder hydraulic cylinder 5B, a rubber hose 7B to the anti-wave lift hydraulic cylinder 8 near the bottom 8B of the hydraulic outlet 15 200415309 At the inlet 8D, there are four rubber hoses 7. Two rubber hoses are connected to the upper cylinder hydraulic cylinder 5A. After converging into a pipeline, they are connected to the top 8A of the breakwater hydraulic cylinder 8. The hydraulic oil enters and exits the other two. 5B Hydraulic Cylinder Connect the rubber tube 7B, and then connect them to a bottom 8B hydraulic oil inlet and outlet 8D of the breakwater hydraulic cylinder. The breakwater hydraulic cylinder 8 has a circular hole protruding from the bottom 8B and the top 8A respectively. The outside is convenient to connect the rubber hose 7. There is a hollow storage hydraulic oil in the hollow. There is a piston 8E in the hollow to separate the upper chamber 卯 and the upper chamber 阢. During hydraulic filling, there is a tie rod 10 at the bottom center of the piston 8E. 10 — Extend straight down to the breakwater hydraulic cylinder 8. Below the breakwater hydraulic cylinder 8, there is a large piston cylinder 9, the large piston cylinder 9 has a disc piston 9A, and the connection is perpendicular to the circular center of the piston disc. Breakwater hydraulic cylinder function principle When the upper cylinder hydraulic cylinder 5A inner piston 5C is connected to a cylinder hydraulic rod 6A and enters the cylinder hydraulic cylinder, the upper cylinder hydraulic cylinder 5A inner piston 5C is pushed into the piston hydraulic oil storage space 5E hydraulic pressure. The oil is pushed in by the piston 5C, and the hydraulic oil is discharged through the hydraulic oil inlet and outlet 5D. The hydraulic oil is discharged through the rubber hose 7A and enters the breakwater hydraulic cylinder 卯 near the top side of the hydraulic oil inlet and outlet 8C, and to the space above the top piston 8F. When stacked, the space above the piston is filled with hydraulic oil, and the hydraulic pressure continues to enter the cylinder. The hydraulic oil expands and pushes the piston 浞. When the piston is pushed down, the hydraulic oil in the space below the piston is 8G to the bottom side. The hydraulic oil inlet and outlet 8D spit out the hydraulic oil through the rubber hose 7B to the hydraulic oil inlet and outlet 5D of the lower cylinder hydraulic cylinder 5B, and filled the hydraulic oil storage space 5E of the lower cylinder hydraulic cylinder 5B. The piston 5C and the tie rod 6B roll out. When the lower cylinder hydraulic cylinder 5B inner piston 5C is connected to a cylinder pull rod 6B to enter the cylinder hydraulic cylinder, the inner cylinder 5C of the cylinder hydraulic cylinder 5B is pushed inward, and the hydraulic oil in the front edge space 5E of the piston is pushed in by the piston 5C. The oil is discharged from the hydraulic oil outlet 5D, and passes through the rubber hose 7 and enters the breakwater hydraulic cylinder near the bottom hydraulic oil inlet 8D. The oil is stacked in the space below the bottom piston 8G, and the space below the piston 8G is filled with hydraulic oil. After entering the cylinder, the hydraulic oil expands and pushes the piston upwards. 16 200415309 When the piston 8E is pushed up, clear the oil above the piston and press it to the top-the hydraulic pressure of the weaving oil in and out is connected by the rubber hose. The hydraulic oil inlet and outlet 5D of which cylinder 5A is placed on top is filled with the cylinder oil pressure red 5A hydraulic oil storage space 5E, and the piston 5C and the rotary 6A are pushed out. Big! Piston cylinder 9 Large piston cylinder 9 is located under the hydraulic cylinder 8 and is a large volume cylinder. The large Wei Cangzaki surface is filled with oil, which is the main energy storage body. _The disc piston 9A divides the large piston rainbow into the upper space 9D and the lower space 9E. The upper part of the disc piston 9A has a vertical rod 10 in the center of the disc. After passing through the red top of the large piston, only the rod passes. 〇 ring tight round hole, into the breakwater hydraulic cylinder 8 and the breakwater hydraulic cylinder's piston is connected, the inner wall of the large piston cylinder is close to the side of the top cylinder, there is a hydraulic oil outlet 9F and hydraulic oil return inlet 9G The side of the cylinder near the bottom 9C has a liquid oil outlet 91 and hydraulic oil flowing back into a9J. The shape is a circular hole, which is good for draining or sucking hydraulic oil. The large piston cylinder 9 is located below the breakwater hydraulic cylinder 8, two The large and small verticals are really closely connected, and the two cylinders communicate with each other through a circular hole, and a common pull rod is connected to the large and small piston dials gA and 8E. The action of the large piston cylinder The hydraulic oil enters the space 8F above the breakwater cylinder from the top hydraulic oil inlet and outlet 8C. The piston 8E in the breakwater cylinder and its connecting rod 10 are pushed down, and the rod 10 is pulled down to extend The disk piston 9A in the shape piston cylinder is vertically connected, and as it is pushed down, the space 9E below the disk piston of the large piston cylinder is pushed down by the disk piston 9A, and the space in the bottom space 9E is reduced. The large piston The cylinder near the bottom 9C has a hydraulic oil outlet 91 near the side of the cylinder. The hydraulic oil outlet discharges hydraulic oil. The space above the disc piston 90 is increased by the action of the disc piston 9A. The large piston is near the top cylinder side 9B. There is a hydraulic oil return inlet 9G, which sucks in the hydraulic oil to replenish the hydraulic oil in the space above the disc piston. The hydraulic oil enters the breakwater hydraulic cylinder from the hydraulic oil inlet and outlet 8D at the bottom. The piston 8E in the space 8D below the breakwater hydraulic cylinder and its connecting rod 10 are pushed up, and the rod is extended to the large piston cylinder 17 200415309. The direct connection of the round brain plug surface also rises upwards. The large Gasser cylinder _in the space above the disk piston 9D is pushed by the disk piston 9A upwards. The space above is reduced. The large piston is near the top _ near the side. There is hydraulic pressure _n9F, _ oil core drains green oil, and the bottom of the disc piston 9A is E 'by H charm ship. · The body _ Karai piston is near the bottom 9C. There is a hydraulic oil return inlet 9J near the side of the cylinder. Suction The hydraulic oil supplements the 9E hydraulic oil in the space below the disc piston. Refer to the ninth figure. Nine non-return valves. 11 large piston cylinder. The hydraulic oil outlet on the top of the oil cylinder has a non-return valve, 11A, and the bottom hydraulic oil outlet 91 has a non-return _UB, non-return_ pipeline appearance. · The bottom 9C and top 9B cylindrical side walls of the device. The hydraulic oil outlet is a circular hole. There is a rectangular box box wrapped around the round bar. The check valve Π structure is covered with a rectangular box box structure 11C. The inner component has a round cover UD. The round cover covers the hydraulic oil outlet and 91. The center of the cover 11D has a connecting rod 11E extending to the outside of the box structure. The disc iid is vertical and straight. At the extension of the rod 11E, the rectangular box hc has a round hole, and the connecting rod can only pass through the box. The external link of the rectangular box structure is equipped with a spring 11F. The spring force makes the cover 11D lightly press the hydraulic oil outlets 9F and 91. The non-return valve has a round cover valve 11D structure to block the hydraulic oil, and it will not enter the large piston cylinder 9 from the outside. There is a circular outlet on the side of the non-return valve. 11G * Y type pipeline 12B is connected to the liquid After pushing the cover valve miD with oil, there is a check Round guide port 11G guides hydraulic oil into the Y-line 12. The check valve on the top of the large piston cylinder is located on the lower side into the Y-line 12A. The check valve 11B on the bottom of the large piston cylinder is located on the upper side. Enter the γ-type pipe 12B 'The hydraulic oil does not flow back into the large piston cylinder. Only the large piston cylinder disc piston 9 is pushed to the top 9B or bottom 9C. When the pressure of the hydraulic oil rises, the valve HD is pushed open, and the valve 11D is pressured. Retreating to the end, the hydraulic oil is smoothly discharged from the hydraulic outlet 9F or 91, and the disc piston 9A does not continue to advance. 18 200415309 The disc piston advances in the forward direction to pressurize the oil. The hydraulic oil under pressure is no longer sent to the hydraulic oil. The valve connecting rod The 11E extension check valve has a spring ⑽ on the outside. The spring force causes the valve UD to cover the hydraulic oil outlet 9F or 91. Return the check valve 1 to its original position to lock the hydraulic oil outlet or 91. Stopper Η side principle large piston cylinder _ no plug 9A pushed down by the willow, under the disc piston is empty _ the volume is reduced, the surface is mixed with the lower part of the bottom, by the push of the living ship, the bottom hydraulic oil outlet di spit out Hydraulic oil, hydraulic oil pushes the round valve cover 11D of the check valve 11B, the valve cover is retracted to the bottom, and the connecting rod 11 connected to the cover is subjected to the power of the hydraulic oil. Out of the round hole, the spring 1 is pulled by force, and the space above the piston of the disk is _, driven by the piston 11A, the space above the piston is _D. The volume increases, and the top hydraulic oil enters the ti9G by the disk. The volume 9D of the space above the piston 9A increases. The space above the large piston cylinder is sucked. The hydraulic oil pushes open the valve 16D of the hydraulic backflow check valve. It enters the large live cylinder from the hydraulic oil inlet 9G to supplement the large piston cylinder. The upper space nD, the check valve cover 11A is subject to the spring force of the connecting box tetrahedral box spring 11F, and the large piston cylinder-the suction of the upper space 9D, blocking the hydraulic oil outlet 9F, blocking the hydraulic oil from entering from the outside Big job Cylinder. In the large piston cylinder, the disk piston 9A is pushed up by the tie rod 10, and the volume of the space above the piston 9D is reduced. The space above the disk piston is called 9D hydraulic oil, which is pushed upward by the disk live wall 9A. The top liquid Li oil outlet 9F Spit out the hydraulic oil. The hydraulic oil pushed the round valve cover 11D of the check valve HA back. The valve cover returned to the bottom connecting rod 11E connected to the cover. Due to the power of the hydraulic oil, it was extended to the upper link of the check structure 11C. Outside the round hole, the spring 11F is pulled open by force, and the space below the disc piston is 9E.
受圓盤活塞9A往上推動作用,活塞的下方空間9E體積增大,底部液壓油入 口9J受圓盤活塞的下方空間體積9E增大作用,大型活塞缸的下方空間抓呈 吸入狀態’液壓油推開液壓回流止逆閥門16B的閥門16D,從液壓油入口9J 19 200415309 進入大型活塞缸内,補充大型活塞紅下方空間11E,止逆閥門閥門蓋子 受連桿11E四方體盒子11C外裝置彈簧11F的彈力,及大型活塞缸内吸入作 用,堵住液壓油电口91阻隔液壓油從外部進入大型活塞缸9内θ 十· Y型管路12 形狀是順時鍾倒下90度角Y形字母,管路是中空管路, 分又成三叉狀,兩管路相交成一個匯合管路12C,止逆閥門11A的止逆閥門 導引11G接Y型管路的分叉管路12A到匯合管路12C,止逆閥門11B的止逆閱門 導引11G接Y型管路的分叉管路12B到匯合管路12C,管路内中空通道,由兩 個管路匯合成匯合營路12C。 Y型管路12作用原理大型活塞缸底部止逆闕門11B被液壓油推開閥門 116,液壓油順利吐出經閥門侧邊導引11G進入γ型管路下方分叉管路12B, 液壓油經分叉管路12B到匯合管路12C内,上方管路12A接著頂部止逆閥門 11A,閥門側邊導引UG受止逆閥門盒子lie外彈簧UF彈力施力連桿he蓋 住閥門蓋子11D,及分叉管路12A内液壓油壓力增大壓注止逆閥門HA的闊門 蓋子11D,液壓油無法從分叉管路12A進入大型活塞缸9内液壓油經匯合管 路12D到達輪形泵,大型活塞缸頂部止逆閥門11A被液壓油推開閥門蓋子 11D,液壓油順利吐出經闊門侧邊導引11G進入γ型管路上方分叉管路12A, 液壓油經分叉管路12A到匯合管路12C内,下方分叉管路12B接著底部止逆闕 門11B ’受止逆閥門盒子lie外彈簧11F彈力施力連桿11E蓋住閥門蓋子11D, 液壓油無法從分叉管路12B進入大型活塞缸9内,液壓油經匯合管路12D到達 輪形泵内。 十一·蓄壓器13蓄壓器裝置在Y行管路12的匯集管路12C途中,蓄壓器13 内能補充大型活塞缸9,圓盤活塞9A上下活動變換時失壓時的壓力,液壓油 直接由蓄壓器出口注入匯集管路内,使匯集管路12c内液壓油連續不會失 200415309 壓。 十二·輪型果14 Y行管路12經匯合管路12D接入輪型泵液壓油入口 14A,輪 形泵14C内有葉片14D,液壓油被匯合管路12D持續送入液壓油,液壓油受後 方匯合管路12D壓力推動葉片14D旋轉,液壓油從輪型泵14C壓油出α14Β, 吐出液壓油輪型泵14C外有一軸承,軸承連接發電機ΐ4Ε,轉動發電機ΐ4Ε發 電。 十三·液壓油回流管路15輪型泵14C流出液壓油出口 14Β接上液壓油回流 管路15,液壓油回流管路15在液壓油出口 14Β處分叉成兩個管路15Α,連接 管路回流到大型活塞缸9内,補回大型活塞缸9内液壓油,管路分開成南個 管路,分又往上方向管路15Β連到大型活塞缸的頂部9Β ,回流管路中途有裝 置回流止逆閥門16Α,它的作用防止大型活塞缸内逆流出液壓油,回流止逆 閥門16Α接回流管路後端⑽接著大型活塞缸頂部液壓油回流回流入口抓, 液壓油入口為圓形入口,只從缸體外部輸入液壓油,另一個分又管路連到 大型活塞缸的底部9C,回流管路中途有裝置回流止逆閥門1邱,它的作用防 止大型活塞缸内逆流出液壓油,回流止逆閥門16β接回流管路後端管路15E 接著大型活塞缸底部液壓油回流回流入口9J,液壓油入口為圓形入口,只 從缸體外部輸入液壓油。 15液壓油回流管路作用原理大型活塞圓盤活塞就往下推動,圓盤活塞上方 空間9D體積增加,這個空間成吸入負壓狀態,頂部9B圓桎侧邊有兩個圓孔, 其中液壓油出口9F從止逆閥門11A閥門蓋子11D受負壓吸入堵住出口,另一 個液壓油回流回流入口9G從液壓回流管路15D吸入液壓油,液壓油回流管路 15B從輪形泵出口ΐ4β吐出液壓油到液壓油回流回流入口9G,裝置在回流管 路15B&15D途中回流止逆閥門IgA,受大型活塞缸活塞上方空間⑽缸内負壓 21 200415309 吸入’及輪形泵出αΐ4Β吐出液壓油經回流管路15B,推開閥門蓋子16D經管 路15D進入液壓回流入口 9G補充圓盤上方空間9D液壓油。 大型活塞圓盤活塞9A往上推高圓盤下方空間5E體積增加,這個空間成吸入 負壓狀態’底部9C有兩個圓孔,其中液壓油出口91從止逆閥門11B閥門蓋 子11D受負壓吸入堵住出口,另一個液壓油回流入口9】從液壓回流管路15E 吸入液壓油’液壓油回流管路15C從輪形泵出口 14B吐出液壓油到液壓油回 流回流入口9J,裝置在回流管路i5C&15E途中回流止逆閥門,丨邸受大型活 塞缸大型活塞缸活塞下方空間9E缸内負壓吸入,及輪形泵出口 14B吐出液壓 油經回流管路15C,推開閥門蓋子16D經管路進入液壓入口9J,補充圓盤活 塞下方空間9E液壓油。 十四·回流止逆閥門16裝置方向與止逆闕門相反傾斜,在液壓回流管路 15途中,有回流止逆閥門16堵住或開啟液壓油進入大型活塞缸9内,防止液 壓逆流從大型活塞缸9液壓油入口逆流出缸體外,止逆閥門構造由四方體盒 子16C包袠住裡面構件,四方體不等邊有一邊有斜邊構造導流口 16G,有利 導流液壓油,排出口是圓形接回流管路15D&15E到液壓油入口,從輪 形栗14C吐出液壓油接回流管路15B&15C到回流止逆閥門,16A&16B—個圓形 閥門的蓋子16D蓋子上有一連桿16E,延伸至回流止逆閥門16C外,回流止逆 閥門外裝置,彈簧16F彈簧彈力使蓋子16D壓注液壓油入口9G&9J,液壓油 入口呈負壓吸入,回流止逆閥門彈簧連桿i瓯及閥門蓋子161),被回流液壓 油推開,經導入口丨6G進入大型活塞缸缸體内。 回流止逆閥門16作用原理當大型活塞缸内圓盤活塞16A往下推動,圓盤活 塞上方空間9D呈負壓吸入狀況,從頂部液壓油回流入口9G吸入液壓油,回 流止逆閥門16A的閥門蓋子16D被缸内負壓及回流管路156内壓力推開到 22 200415309 底,閥門蓋子161)後接連桿16E被回流液壓油推開回流止逆閥門四方體盒子 16C外,連桿16E上的彈簧16F被拉開,液壓油由回流管路15D回流到液壓油 回流入回流口9G,流回液壓油到大型活塞缸9内,圓盤活塞9A的下方空間9E 液壓油回流入口9G,相接的液壓油回流止逆閥門閥門蓋子1邱,堵住液壓往 缸體外逆流。 當大型活塞缸内圓盤活塞9A往上推高,圓盤活塞下方空間9E呈負壓吸入狀 況,從底部液壓油回流入口9J吸入液壓油,回流止逆閥門的闕門蓋子16D被 缸内負壓及回流管路15C内壓力推開到底,閥門蓋子16D後接連桿16E被到回 流止逆閥門16C四方體盒子外,連桿上的彈簧16F被拉開,液壓油由回流管 路15E回流到液壓油回流入口9J,流回液壓油到大型活塞缸内,圓盤活塞9A 的上方空間9D液壓油回流入口9G,相接的液壓油回流ί逆閥門閥門蓋子 16D,堵住液壓往缸體外逆流。 【實施方式】 (波浪的浮力把浮體提尚) 參考第三圖第四圖 海浪波浪波峰1Η到達浮體1,波浪的浮力把浮體1提高位置,旋臂前端2C連 接浮體1,浮體1向上提起旋臂前端2C,旋臂2拉住浮體旋臂2與固定栓柱 3相銜接住是活動栓4Α拴住旋臂,位置在上置活動栓4Β與下置活動栓 4 C之間的二分之一距離長度,上置液壓唧筒5A及唧筒拉桿6A在旋臂2的上 方斜邊,旋臂2和上置液壓唧筒5A及拉桿6A相交一點在浮體1上,旋臂2和浮 體1是固定住,浮體1和下置哪筒油壓缸5B及拉桿6B是由活動栓4E栓住,旋 臂2位置在中間,上置_筒油壓缸5A及拉桿6A在旋臂2位置上侧,下置_筒 油壓缸5B及哪筒拉桿6B在旋臂2位置的下侧,旋臂2和上置哪筒油磨缸5A拉 23 200415309 桿6A及下置唧筒油壓缸5B拉桿6B相交在浮體活動栓4D&4E上,旋臂前端2C和 浮體1是固定住,下置唧筒油壓缸5B及拉桿6B和上置唧筒油壓缸5A及拉桿6A 是由活動栓4M4C栓住固定栓柱3,旋臂前端2C拉高位置,旋臂拉住浮體, 往位置在旋臂2的上面位置的上置唧筒油壓缸5A推入拉桿6A,上置唧筒油壓 缸5A拉桿6A長度縮短,位置在旋臂2的上面位置的上置唧筒油壓缸5A及拉桿 6A,旋臂2往上檯高的推力,在上置唧筒油壓缸5A的位置旋臂2牽連的推力, 是往後方的推力,上置唧筒油壓缸5A後有固定拴柱3,固定夫撐唧筒油壓缸 5A往後的推力,上置唧筒油壓缸外有拉桿6A,和浮體丨有活動栓41)相連,浮 體1向上置哪筒油壓缸5A推進,和浮體1相連的唧筒拉桿6A推進入唧筒油壓 缸5A内’哪筒拉桿6A在哪筒油壓缸5A内連接活塞5C,活塞5C受拉桿6A推進 把活塞刖緣空間5E液壓油推進液壓油出入口5D進入橡皮軟管7A内,橡皮軟 管内有中空通道,液壓油受唧筒油壓缸5人推力,經唧筒油壓缸油壓出口卯 連接橡皮軟管7A,橡皮軟管連結防波堤油壓缸8,液壓油由橡皮軟管進入防 波堤油壓紅出人n8C,堆積活塞上妓_,_油壓缸5A推力由液壓油 推動防波堤油壓缸明活塞8E,液㈣進入防波堤油壓缸上方空間8F内把紅 内的活塞8E往下推動,活塞的下方空間8G受活塞往下方推動往液壓油 出入口 8D推出’經橡皮管路7B進入,下哪筒油壓缸咖液壓油出入口邱 充填均筒油壓⑽油儲藏娜E,把下㈣油壓缸塞%推出, 活塞推出和它相連的拉獅’拉桿册推出下哪筒油壓缸5B之距離長度增 長,以推高旋臂。 防波堤油壓錄錢獻辦細_A 轉丨_接防波堤油 壓紅活塞8E往下推動時,拉桿1〇就把大型活塞缸内圓盤活塞%往下推動, 大里活塞虹_盤活塞9纟把活塞下方㈣9e雜料,下方㈣液廢油 24 200415309 往壓油出口 91推出液壓油,液壓油經液壓出口 91外有止逆閥門的閥門nD 蓋注液壓出口 91,液壓油吐出把閥門1Π)推開閥門受液壓油出口 91吐出液 壓油推力作用,閥門11D退後到底,闕門的連桿延伸到止逆閥門11(:外, 閥門受推力連桿11E往外伸出,連桿上連接彈簧up被拉開,液壓油推開 閥門後經閥門側邊圓形導出口 11G,就進入γ型管路的下方分又管路12β 内’ Y型管路12分叉成上部分叉管路12A和下部分叉管路12B共同會合成 匯合管路12C,止逆閥門11B只會從大型活塞缸9内吐出液壓油,液壓油從 底部止逆閥門11B輸出液壓油,經γ行管路下方分叉管路12B進入匯合管 路12C ’上方分又管路12A管路内液壓油壓力升高,液壓油壓力會把γ型 管路12從大型活塞缸9連接管路的上方分叉r管路12A壓油出口止逆闕pi的 醏門11D ’往壓油出口 9F處壓注,使壓油無法由壓油出口 止逆閥門的閥 門11D進入大型活塞缸内,匯合管路12D在連結輪型泵液壓油入口 14A,輪 型泵14C輪型泵上的葉片14D經液壓油推動旋轉葉片,轴心有軸承速接轉 動飛輪發電機14E發電,輪型泵吐出口 14B接上液壓油回流至大型活塞缸 液壓回流管路15,在回流管路適當距離内分又成兩個管路15a的,其中一 管路接大型活塞缸頂部9fe回流管路15B,回流管路途中裝置回流逆醋門 16A,回流逆閥門16A再把液壓油經由液壓油回流管路15D連接到大型活塞 缸内,液壓油壓力升高,把液壓油回流管路15B的回流止逆闕門16A闕門 161)推開,進入回流止逆閥内導流口 16G,回流止逆閥内導流口 16G接上回 流管路15D,進入大型活塞缸内的活塞上方空間9D液壓油回流入口 9g,補 充大型活塞缸内液壓油。 (浮體的重力把浮體降低) 參考第五圖第六圖 25 200415309 海浪波浪波谷1L到達浮體1,浮體1下方懸空,浮體i下方失去支撐浮體 的浮力,波浪的重力把浮體1從提高的位置1H壓下到波谷a的位置,旋 臂月纟端2C連接浮體1,浮體1向下降低,旋臂前端2C被浮體1重力壓下 降低位置,旋臂2拉住浮體,旋臂2與固定栓柱3相銜接住是活動检4a 栓住旋臂,位置在上置活動栓4 B與下置活動栓4 C之間的二分之一距離 長度,下置液壓唧筒5B及唧筒拉桿6B在旋臂2的下方斜邊,旋臂2和下Pushed upward by the disc piston 9A, the volume of the space 9E below the piston is increased, and the hydraulic oil inlet 9J at the bottom is increased by the volume of the space 9E below the disc piston. The space below the large piston cylinder is inhaled. Push open the valve 16D of the hydraulic return check valve 16B, and enter the large piston cylinder from the hydraulic oil inlet 9J 19 200415309 to supplement the large piston red space 11E. The check valve cover is connected by the connecting rod 11E, the tetragonal box 11C, and the external device spring 11F. The elastic force and the suction effect of the large piston cylinder block the hydraulic oil port 91 and block the hydraulic oil from entering the large piston cylinder 9 from the outside. Θ · Y-shaped pipe 12 is a clockwise 90-degree Y-letter, The pipeline is a hollow pipeline, which is divided into three forks. The two pipelines intersect to form a merged pipeline 12C. The check valve of the check valve 11A guides 11G to the branched pipeline 12A of the Y-type pipeline to the merged pipe. Road 12C, non-return door guide 11G of non-return valve 11B is connected to the branch pipeline 12B of the Y-shaped pipeline to the confluence pipeline 12C. The hollow passage in the pipeline is merged into the confluence camp road 12C. Working principle of Y-type pipeline 12 The check valve 11B at the bottom of the large piston cylinder is pushed to open the valve 116 by hydraulic oil. The hydraulic oil is smoothly discharged through the side of the valve to guide 11G into the branch pipeline 12B below the γ-type pipeline. The branch line 12B is inside the confluence line 12C. The upper line 12A is followed by the top check valve 11A. The side of the valve guides the UG check valve box. The outer spring UF spring force connecting rod he covers the valve cover 11D. The hydraulic oil pressure in the fork pipe 12A increases, and the wide door cover 11D of the injection check valve HA cannot be entered into the large piston cylinder 9 from the branch pipe 12A. The hydraulic oil reaches the wheel pump and the large piston through the joint pipe 12D. The non-return valve 11A on the top of the cylinder was pushed to open the valve cover 11D by the hydraulic oil, and the hydraulic oil was smoothly discharged through the side of the wide door to guide 11G into the branch line 12A above the γ-type pipeline. The hydraulic oil passed through the branch line 12A to the confluence pipe. In the path 12C, the lower branch line 12B is followed by the bottom check valve 11B 'the check valve box lie outer spring 11F spring force connecting rod 11E covers the valve cover 11D, and the hydraulic oil cannot enter the large piston cylinder from the branch line 12B In 9, the hydraulic oil passes through the joint line 12D to Up to the wheel pump. Eleventh pressure accumulator 13 The pressure accumulator device is in the middle of the collecting line 12C of the Y line line 12, and the pressure accumulator 13 can supplement the pressure of the large piston cylinder 9 and the disc piston 9A when the pressure is lost when the vertical movement changes. The hydraulic oil is directly injected into the collecting pipeline from the outlet of the accumulator, so that the hydraulic oil in the collecting pipeline 12c will not lose the pressure of 200415309 continuously. Twelve wheel-type fruit 14 Y line pipe 12 is connected to the wheel pump hydraulic oil inlet 14A via the confluence pipe 12D. The wheel pump 14C has blades 14D. The hydraulic oil is continuously fed into the hydraulic oil by the confluence pipe 12D. The blade 14D is driven to rotate by the pressure of the rear joint line 12D, and the hydraulic oil is pressured out from the wheel pump 14C to output α14B. The hydraulic oil tank pump 14C has a bearing outside, and the bearing is connected to the generator ΐ4E, and the rotary generator ΐ4E generates electricity. Thirteen · Hydraulic oil return line 15Wheel pump 14C flows out of the hydraulic oil outlet 14B and is connected to the hydraulic oil return line 15. The hydraulic oil return line 15 is branched into two pipes 15A at the hydraulic oil outlet 14B, and the connecting pipe The pipeline returns to the large piston cylinder 9 to replenish the hydraulic oil in the large piston cylinder 9. The pipeline is divided into south pipelines, and the pipeline 15B is connected to the top of the large piston cylinder 9B in the upward direction. The device has a backflow check valve 16A. Its function prevents the hydraulic oil from flowing backward in the large piston cylinder. The backflow check valve 16A is connected to the back end of the return line. Then the top of the large piston cylinder is connected with the backflow inlet of the hydraulic oil. The hydraulic oil inlet is circular. At the inlet, only the hydraulic oil is input from the outside of the cylinder block, and the other branch line is connected to the bottom of the large piston cylinder 9C. There is a return check valve 1 Qiu in the return line. Its function prevents the hydraulic pressure from flowing out of the large piston cylinder. The oil, return check valve 16β is connected to the back end line 15E of the return line. Then the hydraulic oil return flow inlet 9J at the bottom of the large piston cylinder is a circular inlet, and the hydraulic oil is input only from the outside of the cylinder. 15Hydraulic oil return line principle The large piston disc piston is pushed down, the volume of the space above the disc piston 9D increases, this space becomes a state of suction negative pressure, and there are two round holes on the side of the top 9B circle. The outlet 9F is blocked by the negative pressure suction from the check valve 11A and the valve cover 11D. The other hydraulic oil return inlet 9G sucks the hydraulic oil from the hydraulic return line 15D, and the hydraulic oil return line 15B spit out the hydraulic oil from the wheel pump outlet β 4β. To the hydraulic oil return and return inlet 9G, the device returns the check valve IgA in the return line 15B & 15D on the way, and is affected by the space above the large piston cylinder piston ⑽ negative pressure in the cylinder 21 200415309 Suction 'and wheel pumping out αΐ4Β The hydraulic oil is discharged through the return pipe Road 15B, push open the valve cover 16D and enter the hydraulic return inlet 9G via the pipeline 15D to supplement the 9D hydraulic oil in the space above the disc. The large piston disc 9A pushes up the space 5E below the disc to increase the volume. This space is sucked into negative pressure. The bottom 9C has two round holes, of which the hydraulic oil outlet 91 is subject to negative pressure from the check valve 11B and the valve cover 11D. Suction blocked the outlet, another hydraulic oil return inlet 9] Suction of hydraulic oil from hydraulic return line 15E 'Hydraulic oil return line 15C Spit out hydraulic oil from wheel pump outlet 14B to hydraulic oil return return inlet 9J, the device is in the return line i5C & 15E backflow check valve on the way, it was sucked by the negative pressure of 9E in the space under the large piston cylinder large piston cylinder, and the hydraulic oil from the outlet 14B of the wheel pump was discharged through the return line 15C, and the valve cover 16D was opened to enter through the line. Hydraulic inlet 9J replenishes 9E hydraulic oil in the space below the disc piston. 14. The direction of the backflow check valve 16 is opposite to that of the check valve. On the way of the hydraulic return line 15, a backflow check valve 16 blocks or opens the hydraulic oil into the large piston cylinder 9 to prevent the backflow of hydraulic pressure from the large The hydraulic oil inlet of the piston cylinder 9 flows back out of the cylinder. The check valve structure encloses the inner components by a tetragonal box 16C. The tetragonal unequal sides have a beveled edge to form the guide port 16G, which is good for diversion of hydraulic oil. The outlet is a circular connection of the return line 15D & 15E to the hydraulic oil inlet. The hydraulic oil is discharged from the wheel pump 14C and the return line 15B & 15C is connected to the return check valve. 16A & 16B—a circular valve cover. There is a 16D cover on the cover. The connecting rod 16E extends beyond the backflow check valve 16C, and the device outside the backflow check valve. The spring 16F spring forces the cover 16D to inject the hydraulic oil inlet 9G & 9J. The hydraulic oil inlet is sucked in by negative pressure. The rod i 瓯 and the valve cover 161) are pushed away by the returning hydraulic oil and enter the large piston cylinder body through the introduction port 6G. The working principle of the backflow check valve 16 When the disk piston 16A in the large piston cylinder is pushed down, the space 9D above the disk piston is sucked in negative pressure. The hydraulic oil is sucked in from the top hydraulic oil return inlet 9G, and the valve of the backflow check valve 16A The lid 16D is pushed open by the negative pressure in the cylinder and the pressure in the return line 156 to the end of 22 200415309, the valve cover 161). The connecting rod 16E is pushed back by the return hydraulic oil to open the check box 16C of the check valve and the connecting rod 16E. The spring 16F is pulled away, and the hydraulic oil returns from the return line 15D to the hydraulic oil return to the return port 9G, and the hydraulic oil flows back to the large piston cylinder 9, the space 9E below the disk piston 9A, and the hydraulic oil return inlet 9G. The connected hydraulic oil backflow check valve valve cover 1 Qiu blocks the hydraulic fluid from flowing backward out of the cylinder. When the disc piston 9A in the large piston cylinder is pushed up, the space 9E below the disc piston is in a negative pressure suction condition, the hydraulic oil is sucked in from the bottom hydraulic oil return inlet 9J, and the valve cover 16D of the backflow check valve is negatively charged in the cylinder. The internal pressure of the pressure and return line 15C is pushed to the end. The valve cover 16D is connected to the connecting rod 16E outside the box of the return check valve 16C. The spring 16F on the connecting rod is pulled open, and the hydraulic oil flows back through the return line 15E. To the hydraulic oil return inlet 9J, the hydraulic oil flows back into the large piston cylinder, the space 9D above the disc piston 9A, the hydraulic oil return inlet 9G, and the connected hydraulic oil returns to the valve cover 16D, blocking the hydraulic pressure to the cylinder Outside countercurrent. [Embodiment] (The buoyancy of the wave lifts the buoyant body) Refer to the third figure and the fourth figure, the wave peak 1 浪 of the ocean wave reaches the buoyant body 1, the buoyancy of the wave raises the position of the buoyant body 1, and the front end 2C of the spiral arm is connected to the buoyant body 1. The body 1 lifts up the front end 2C of the swing arm. The swing arm 2 pulls the floating body swing arm 2 to connect with the fixed bolt column 3. The movable bolt 4A is used to fasten the swing arm, and the positions are located on the upper movable bolt 4B and the lower movable bolt 4 C. One-half distance between the upper hydraulic cymbal 5A and the cymbal pull rod 6A on the upper side of the swivel arm 2. The rotary arm 2 and the upper hydraulic cymbal 5A and the pull rod 6A intersect a little on the floating body 1. The rotary arm 2 and the floating body 1 are fixed, the floating body 1 and the lower cylinder 5C and the tie rod 6B are bolted by the movable bolt 4E, the position of the swing arm 2 is in the middle, and the upper _ cylinder hydraulic cylinder 5A and the tie rod 6A On the upper side of the swing arm 2 position, the lower_cylinder oil cylinder 5B and which cylinder rod 6B are located on the lower side of the swing arm 2 position, the swing arm 2 and the upper cylinder oil cylinder 5A is pulled 23 200415309 lever 6A and the lower position The drum hydraulic cylinder 5B and the tie rod 6B intersect on the floating body movable bolt 4D & 4E. The front end of the rotary arm 2C and the floating body 1 are fixed. The lower cylinder hydraulic cylinder 5B and the tie rod 6B and the upper cylinder. The pressure cylinder 5A and the tie rod 6A are fixed by the movable bolt 4M4C to the fixed bolt 3, the front end of the swing arm 2C is pulled up, the swing arm pulls the floating body, and the upper cylinder 5A is positioned above the swing arm 2 Push in the pull rod 6A, the length of the upper cylinder oil cylinder 5A is shortened, and the upper cylinder oil cylinder 5A and the rod 6A are positioned above the rotary arm 2. The high thrust of the rotary arm 2 to the upper stage is placed on the upper cylinder. The thrust of the rotary arm 2 at the position of the hydraulic cylinder 5A is the rear thrust. There is a fixed post 3 behind the hydraulic cylinder 5A, and the fixed thrust of the hydraulic cylinder 5A. There is a pull rod 6A outside the pressure cylinder, which is connected to the floating body 丨 there are movable bolts 41), which cylinder 5A of the cylinder 1 is pushed upward to advance, and the cylinder rod 6A connected to the floating body 1 is pushed into the cylinder cylinder 5A. The cylinder rod 6A is connected to the piston 5C in the cylinder 5A. The piston 5C is pushed by the rod 6A to push the piston flange space 5E. The hydraulic oil is pushed into the hydraulic oil inlet and outlet 5D into the rubber hose 7A. There is a hollow passage in the rubber hose. The oil is pushed by 5 persons from the cylinder hydraulic cylinder, and the rubber hose 7A is connected via the cylinder hydraulic cylinder hydraulic outlet. The hose is connected to the breakwater hydraulic cylinder 8. The hydraulic oil enters the breakwater from the rubber hose. The hydraulic pressure is red and the n8C is stacked on the piston. The hydraulic cylinder 5A thrust is driven by the hydraulic oil to push the breakwater hydraulic cylinder Ming piston 8E. Enter the space 8F above the breakwater hydraulic cylinder to push the red inner piston 8E downwards. The space below the piston 8G is pushed downward by the piston to the hydraulic oil inlet and outlet 8D. It is pushed in through the rubber pipe 7B. The hydraulic oil inlet and outlet Qiu filled with homogeneous hydraulic oil and oil storage Na E, pushed out the lower hydraulic cylinder plug%, the piston pushed out the connected lion 'pull rod book which pushed out which cylinder of hydraulic cylinder 5B increased the distance length, Push up the swing arm. Breakwater hydraulic pressure recording money offer_A Turn 丨 __When the breakwater hydraulic pressure red piston 8E is pushed down, the lever 10 will push the disc piston in the large piston cylinder down%, and the plunger rainbow_disk piston 9 纟Put 9e miscellaneous material under the piston, and waste liquid under the liquid 24 200415309 Push the hydraulic oil to the pressure oil outlet 91. The hydraulic oil passes the valve nD with a non-return valve outside the hydraulic outlet 91 and fills the hydraulic outlet 91. The hydraulic oil is discharged and the valve 1Π) When the valve is pushed open, the hydraulic oil pushes out from the hydraulic oil outlet 91. The valve 11D recedes to the end, and the connecting rod of the yamen extends to the check valve 11 (: outside, the valve is pushed out by the thrust connecting rod 11E, and a spring is connected to the connecting rod. Up is pulled open. After the hydraulic oil pushes the valve through the circular guide port 11G on the side of the valve, it enters the lower branch line 12β of the γ-type pipeline, and the Y-type pipeline 12 branches into the upper part of the pipeline 12A. Together with the lower part of the fork pipe 12B, the combined pipe 12C will be combined. The check valve 11B will only spit out the hydraulic oil from the large piston cylinder 9, and the hydraulic oil will output the hydraulic oil from the bottom check valve 11B. The fork pipe 12B enters the confluence pipe 12C. The pressure of the hydraulic oil in the pipeline 12A increases, and the hydraulic oil pressure will branch the γ-type pipeline 12 from the large piston cylinder 9 above the connecting pipeline to the bifurcated r pipeline 12A. Inject pressure to the oil outlet 9F, so that the oil cannot enter the large piston cylinder through the valve 11D of the oil outlet check valve, and the confluence line 12D connects the hydraulic oil inlet 14A of the wheel pump and the wheel pump 14C. The blades 14D on the upper part are driven by the hydraulic oil to rotate the blades. The shaft center has bearings to quickly connect the rotating flywheel generator 14E to generate electricity. The wheel pump outlet 14B is connected to the hydraulic oil to return to the large piston cylinder hydraulic return line 15. Within the distance, it is divided into two pipelines 15a, one of which is connected to the 9fe return line 15B on the top of the large piston cylinder. The return line is provided with a reverse valve 16A, and the reverse valve 16A returns the hydraulic oil via the hydraulic oil. The line 15D is connected to the large piston cylinder, and the pressure of the hydraulic oil rises. Push the return check valve 16A (the back door 161) of the hydraulic oil return line 15B and enter the guide port 16G in the return check valve. 16G in the reverse valve is connected to the return line 15D The 9D hydraulic oil return inlet 9g into the space above the piston in the large piston cylinder is used to replenish the hydraulic oil in the large piston cylinder. (The gravity of the buoyant body lowers the buoyant body.) Refer to the fifth figure and the sixth figure 25 200415309 Wave wave trough 1L reaches the buoyant body 1, the buoyant body is suspended below the buoyant body 1, and the buoyancy of the buoyant body is lost below the buoyant body i. The body 1 is pushed down from the raised position 1H to the position of the trough a. The crescent arm 2C is connected to the floating body 1 and the floating body 1 is lowered downward. The front end 2C of the spiral arm is lowered by the gravity of the floating body 1 to lower the position. Pull the floating body, and the swing arm 2 is connected with the fixed bolt column 3. The movement test 4a is used to lock the swing arm, and the position is a half of the length between the upper movable bolt 4 B and the lower movable bolt 4 C. The lower hydraulic cymbal drum 5B and the cymbal drum rod 6B are slanted below the swing arm 2 and the swing arm 2 and the lower
置液壓唧筒5B及拉桿6B相交一點在浮體1上,旋臂2和浮體1是固定住, 浮體1和下置唧筒油壓缸5B及拉桿6B是由活動拴4E栓住,旋臂的前端沈 固定浮體1,浮體跟隨波浪降低位置1L,旋臂前端沈位置降低,旋臂拉住 浮體,往位置在旋臂2的下面位置的下置唧筒油壓缸兕推入拉桿肪下置 哪筒油壓缸5B拉桿6B長度縮短,旋臂2往下壓低的推力,在哪筒油壓缸 5B的位置旋臂2牵連的推力,是往後方的推力,賴油壓缸证後有固定 拾柱3’ ϋ定支撐哪筒油壓缸5β往後的推力,讀油壓缸外有哪筒拉桿册 和浮體1有活動栓4E相連,浮體1向下置哪筒油壓缸5B推進,和浮體相 連的哪筒拉桿_進入下置哪筒油壓缸5B内,听筒拉桿6B在下置哪筒油 廢紅5B内連接活塞5C,活塞%受拉桿6B推進把活塞前液壓油儲藏空間 5E内液壓油’推進橡皮軟管7B,橡皮軟管内有中空通道液壓油受唧筒油 壓缸5B活塞5C推力’經卞置哪筒油壓虹油廢出入口 5D連接橡皮軟管7b, 皮軟管連、„„防朗^壓缸8,液壓油由橡皮軟管7B進人卩减堤油壓缸8 下方液壓油出入口 8D, 下置唧筒油壓缸5B推力由液壓油推動防波堤油壓缸 8⑴舌塞8E ’液壓油進人活塞下方㈣犯的防波堤雜缸,内把防波堤油 、内的雜8E;&上推高,雜社方M8F受轉往上方推高,往 '自人8 C推出’經橡皮管路7 A進入,均筒油壓缸5 a的液壓 26 200415309 油出入口 5D充填上哪筒油壓缸5A液壓油儲藏空間犯,把上哪筒油壓 活塞5C推出’活塞推出和它相連的拉桿6A,拉桿6a推出上哪筒油壓缸臥 之距離長度增長,以推高旋臂0 防波堤油壓缸8活塞8E與大型活塞缸隨活塞9a有—拉桿Μ相連接,防 波堤油壓缸8的活塞8E往上推高時,拉桿1G就把大型活塞缸_盤活塞 9A往上推高,大型活塞缸_盤活塞活塞上方空⑽崎壓油, 往液壓油出口 9F推出液壓油’液壓油經液壓出口卵外有止逆閥門瓜的 閥門11D蓋注液壓出口 9F,液壓油吐出把閥門⑽推開閥門受⑽液壓 油出口册吐出液壓油推力作用,閥門退後到底1門m的連桿ϋΕ延伸# 止逆閥門沉外,閥門11D受推力連桿11E往外伸出’連桿上連接彈餐⑽, 止逆閥門四方體下方侧邊有顏油導出口 11G,液壓油導出口 11G接上㉔ 管路的上方管路’液壓油推開閥門11D後就進入γ型管路12的上方管路 12Α内’ Υ型管路分又成上部分叉管路12Α和下部分又管路⑽共同會 合成匯合管路12C,止逆閥門11Α只會從大型活塞缸内吐出液壓油,液壓 油從上方頂部止逆閥11Α輸出液壓油,經γ行管路上方分叉管路似進入 匯合營路12C ’下方分又管路内液壓油壓力升高,液壓油壓力會把γ型管路_ 12從大型活塞缸9連接管路的下方分叉管路咖麼油出口止逆_的閱門 1Π),往壓油* 口4舰,使壓油無法放油“ 91止逆_的闕門UD 進入大型活塞紅9内,匯合管路12D在連結輪型嚴液麼油入口 14A,輪型泵 14C輪型泵上的葉片14D經液壓油推動旋轉,葉片柄心有轴承連接轉動飛輪 發電機14E發電,輪型泵吐出口 14B接上液壓油回流至大型活塞缸液壓回 流管路15’在回流管路適當距_分叉成兩個營路脱的其中一管路接大 型活塞红底部9C回流管路15C,回流管路途中裝置回流逆闊門⑽,回流 27 200415309 逆閥門16B再把液壓油經由液壓油回流管路15E連接到大型活塞缸9内, 液壓油壓力升高,把液壓油回流管路15C的回流止逆閥門16B閥門16])推 開,進入回流止逆閥内導流口 16G,回流止逆閥内導流口 16G接上回流管路 15E,進入大型活塞缸内的活塞下方空間9E液壓油回流入口 9J,補充大型 活塞缸内液壓油。 當浮體1由浮力轉換重力時或由重力轉換浮力時,這時壓油壓力突然降 低,壓油不能繼續施力,所有止逆閥門丨丨A&11β的閥門篕住液壓油出口卵&91 和回流止逆閥門,16A&16B的閥門蓋住液壓油回流入口 9G&9J,在Y型管路 12的匯流管路12C上有個出口連接到蓄壓器13内有蓄壓器儲存油壓壓力, 補充浮力轉換重力,或由重力轉換浮力時壓油壓油會由蓄壓器13進入匯流 管路12C内。 【圖式簡單說明】 第一圖式是這整個系統立體圖 第二圖式是绛系統剖面圖 第七圖式是浮體旋臂及唧筒液壓缸立體圖 第八圖式是是防波堤油壓缸大型活塞缸立體圖 第九圖式Y型管路及蓄壓器圖液壓油回流管路及連結輪型泵 第三圖式是這系統波峰推高浮體液壓作用剖面圖 第四圖式是這系統波峰推高浮體液壓作用剖面圖 第五圖式是這系統波谷下降浮體液壓作用剖面圖 第六圖式是這系統波谷下降浮體液壓作用剖面圖 (元件圖號說明) 1浮體1A浮體斜板1B浮體高度lc浮體寬度1D浮體長度1E浮體 的吃水線 28 200415309 1H波浪的波峰 1L波浪的波谷 2旋臂2A右侧旋臂2B左侧旋臂2C旋臂與浮體固定的前端2D旋臂 與固定栓能上下活動的後端 3固定栓柱3A右侧固定栓柱3B左侧固定栓柱3C防波堤3D建築平臺 4活動栓4A中央旋臂活動栓4B上置唧筒油壓缸活動栓c下置卿筒油 壓缸活動栓4D·上置唧筒油壓缸拉桿與浮體相連活動拴犯·下置唧筒油 壓缸拉桿與浮體相連活動栓 5哪筒油壓缸5A上置哪筒油壓缸5B下置哪筒油壓紅%哪筒油壓缸内 部的活塞5D液壓油出入口 5E活塞液壓油儲藏空間 參 6·唧筒油壓缸拉桿· 6A上置油壓缸拉桿册下置油壓缸拉桿 7橡皮軟管7A上置啊筒油壓缸橡皮軟冑7β下置哪筒油壓缸橡皮軟管 冗上置讀祕缸橡錄管驗· 71)下置讀油麵橡皮軟賴流管· 路 8防波堤油壓缸8A防波堤油壓缸頂部8B防波堤油壓缸底部队防波 堤油壓虹頂部液壓油出入口 81)防波堤油壓缸底部液壓油出入口驵防波 堤油壓缸内的活塞 抑防波堤油壓缸活塞上方空Pb1 8G防波堤油壓缸活塞下方空間 # 9大型活塞缸9A大型活塞缸内的圓盤活塞⑽大型活塞缸頂部驼大 型活塞缸 底部9D活塞圓盤的上方空W 9E活塞圓盤的下方空冑9ρ頂部液壓油The hydraulic cylinder 5B and the tie rod 6B intersect at a point on the floating body 1. The rotary arm 2 and the floating body 1 are fixed. The floating body 1 and the lower hydraulic cylinder 5B and the tie rod 6B are fixed by a movable bolt 4E. The rotary arm The front end sinks and fixes the floating body 1. The floating body follows the wave to lower the position 1L. The front end of the swing arm is lowered. The swing arm pulls the floating body and pushes the lower cylinder oil cylinder 位置 located under the swing arm 2 into the lever. Which cylinder 5B pull rod 6B is shortened in length, and the thrust force of the rotary arm 2 is lowered. The thrust force of the rotary arm 2 at the position of the hydraulic cylinder 5B is the rearward thrust, which depends on the hydraulic cylinder certificate. There is a fixed pick-up post 3 ', which determines which cylinder of oil cylinder 5β pushes back. Read which cylinder outside the cylinder is connected to the floating body 1 with a movable bolt 4E. Which cylinder of oil is placed on the floating body 1 downwards? The cylinder 5B is pushed forward, which cylinder is connected to the floating body_ into which cylinder of the lower cylinder 5B, and the handset rod 6B is connected to the piston 5C within the cylinder of waste red 5B. The piston is pushed by the lever 6B before the piston The hydraulic oil in the hydraulic oil storage space 5E pushes the rubber hose 7B. The rubber hose has a hollow passage. The hydraulic oil is received by the hydraulic cylinder 5B. Plug 5C thrust 'Which cylinder is installed with hydraulic pressure rainbow oil waste inlet and outlet 5D connected with rubber hose 7b, leather hose connected, „„ protection ^ pressure cylinder 8, hydraulic oil enters by rubber hose 7B to reduce dyke oil pressure The hydraulic oil inlet and outlet 8D below the cylinder 8 and the thrust oil cylinder 5B of the lower cylinder are pushed by the hydraulic oil to push the breakwater hydraulic cylinder 8 and the tongue plug 8E 'The hydraulic oil enters the breakwater miscellaneous cylinder offended by the piston. 8E; & push up, the miscellaneous party M8F is pushed up and pushed up to 'self-introduced by 8 C' and entered via rubber line 7 A, hydraulic pressure of homogenizing cylinder 5 a 26 200415309 oil inlet and outlet 5D filling Which cylinder of hydraulic cylinder 5A is used, the hydraulic oil storage space is committed, and the cylinder of hydraulic cylinder 5C is pushed out. The piston pushes the tie rod 6A connected to it. The length of the cylinder 6a is pushed up to increase the distance. Rotary arm 0 Breakwater hydraulic cylinder 8 piston 8E and large piston cylinder are connected with piston 9a with tie rod M. When piston 8E of breakwater hydraulic cylinder 8 is pushed up, the pull rod 1G moves the large piston cylinder_disk piston 9A to Push up, large piston cylinder _ the top of the piston piston is empty, and the oil pressure is 9F to the hydraulic oil outlet Out of the hydraulic oil, the hydraulic oil has a non-return valve outside the hydraulic outlet. The valve 11D covers the hydraulic outlet 9F. The hydraulic oil is ejected. The valve is pushed open. The hydraulic oil exit book spit out the hydraulic oil. The valve retracts to the end. 1 门 m's connecting rod ϋΕExtend # The check valve is outside Shen, the valve 11D is pushed out by the thrust link 11E. 'The connecting rod is connected to the spring meal. There is a oil outlet 11G on the side of the check valve below the cube. The oil outlet 11G is connected to the upper pipeline of the ㉔ pipeline. 'The hydraulic oil pushes open the valve 11D and enters the upper pipeline 12A of the γ-type pipeline 12.' The Υ-type pipeline is divided into the upper part of the pipeline 12A and the lower. Some of the pipelines will jointly form the confluence pipeline 12C. The check valve 11A will only spit out the hydraulic oil from the large piston cylinder. The hydraulic oil will output the hydraulic oil from the top check valve 11A at the top. The road seems to enter Huiheying Road 12C. The pressure of the hydraulic oil in the pipeline increases below the hydraulic pressure, and the hydraulic oil pressure will take the γ-type pipeline _ 12 from the branch pipe of the large piston cylinder 9 to the pipeline. Reverse the reading door 1Π), go to oil pressure * port 4 ship, make oil pressure The method of draining oil “91 逆 __ into the large piston red 9, the confluence line 12D is connected to the wheel-type liquid fluid inlet 14A, the wheel pump 14C on the wheel pump blade 14D is driven by the hydraulic oil to rotate The blade handle has bearings to connect the rotating flywheel generator 14E to generate electricity. The wheel pump outlet 14B is connected to the hydraulic oil return to the large piston cylinder. The hydraulic return line 15 'is properly spaced at the return line. One of the pipes is connected to the red bottom 9C return line 15C of the large piston. The return line is equipped with a reverse inversion door, 27 200415309. The reverse valve 16B connects the hydraulic oil to the large piston cylinder 9 through the hydraulic oil return line 15E. Inside, the hydraulic oil pressure rises, push the hydraulic oil return line 15C return check valve 16B valve 16]), enter the return check valve 16G, the return check valve 16G The return line 15E enters the space 9E below the piston in the large piston cylinder for the hydraulic oil return inlet 9J to replenish the hydraulic oil in the large piston cylinder. When the buoyancy body 1 converts gravity from buoyancy or when gravity converts buoyancy, the pressure of the oil pressure suddenly drops, and the oil pressure cannot continue to exert force. All check valves 丨 丨 A & 11β valves hold the hydraulic oil outlet egg & 91 And return check valve, 16A & 16B valve covers the hydraulic oil return inlet 9G & 9J, there is an outlet on the manifold 12C of the Y-line 12 connected to the accumulator 13 and the accumulator stores the oil pressure Pressure, supplemental buoyancy, and gravity, or when gravity converts buoyancy, hydraulic oil will enter the bus line 12C from the accumulator 13. [Schematic description] The first diagram is a perspective view of the entire system. The second diagram is a cross-sectional view of the concrete system. The seventh diagram is a perspective view of the floating body arm and the cylinder hydraulic cylinder. The eighth diagram is a large piston of a breakwater hydraulic cylinder. Cylinder perspective view Ninth diagram Y-type pipeline and accumulator diagram Hydraulic oil return pipeline and connecting wheel pump The third diagram is the cross-sectional view of the system's wave pushing up the floating body's hydraulic pressure. The fourth diagram is this system's wave pushing High-floating body hydraulic action sectional view. The fifth diagram is the system's trough descending floating body hydraulic action sectional view. The sixth diagram is the system's trough descending floating body hydraulic action sectional view (element drawing number description). Plate 1B floating body height lc floating body width 1D floating body length 1E floating body waterline 28 200415309 1H wave crest 1L wave trough 2 swing arm 2A right swing arm 2B left swing arm 2C swing arm is fixed to the floating body Front end 2D spiral arm and fixed bolt can move up and down 3 Rear fixed pillar 3A Right fixed pillar 3B Left fixed pillar 3C Breakwater 3D Construction platform 4 Active bolt 4A Central swing arm movable bolt 4B Upper cylinder hydraulic cylinder Removable bolt c Cylinder oil cylinder movable bolt 4D · Set up the cylinder hydraulic cylinder rod and the floating body to move the prisoner. · Set down the cylinder hydraulic cylinder rod and the floating body to connect the moving bolt. 5 which cylinder is placed on the cylinder 5A which cylinder is placed on the cylinder 5B which cylinder is placed under the hydraulic red% Which cylinder inside the cylinder 5D hydraulic oil inlet and outlet 5E piston hydraulic oil storage space reference 6 · cylinder hydraulic cylinder lever · 6A upper hydraulic cylinder lever book lower hydraulic cylinder lever 7 rubber hose 7A upper cylinder Oil cylinder rubber soft 胄 7β Which cylinder is placed under the hydraulic cylinder rubber hose redundant reading cylinder rubber recording tube inspection 71) Lower reading oil surface rubber soft reflow pipe · Road 8 breakwater hydraulic cylinder 8A breakwater The top of the 8B breakwater hydraulic cylinder, the bottom of the breakwater hydraulic pressure, the top of the hydraulic oil inlet and outlet 81) the hydraulic oil inlet and outlet of the bottom of the breakwater hydraulic cylinder, the piston inside the breakwater hydraulic cylinder, and the Pb1 8G breakwater hydraulic cylinder above the piston. Space under the piston # 9 Large piston cylinder 9A Disk piston inside the large piston cylinder⑽ Top of the large piston cylinder Camel bottom of the large piston cylinder 9D Above the piston disk W 9E Below the piston disk 活塞 9ρ Top hydraulic oil
出口 9G 底部液麼油回流入α 91底部液壓油出α 9J底部液壓油回流入口冊波 峰到達高點 29 200415309 9L波谷到達低點 10防波堤油壓缸内的活塞與大型活塞缸的圓盤活塞相連的拉桿 11止逆閥門11A頂部止逆閥門11B底部止逆閥門11C止逆閥門四 方體盒子構 造11D止逆閥門的閥門圓盤蓋子11E止逆閥門閥門垂直連接的連桿 11F止逆閥門後裝置彈簧11G止逆閥門圓孔導流口 12Y型管路12AY型管路接上頂部止逆閥門分叉管路ι2βγ型管路接上底 部止逆閥門分叉管路12CY型管路匯合管路12DY型管路匯合管路連接 輪型泵一端 13蓄壓器 14輪型泵HAY型管路匯合管路與輪型泵液壓油入口 i4B輪型泵與液壓 回流管路液壓油出口 14C輪型泵體14D輪型泵葉片14Ε發電機 15液壓回流管路15α液壓回流管路分叉處15Β液壓回流管路經回流止 逆閥門15C液壓回流管路經回流止逆閥門i5D夜壓回流管路回流至大型 活塞缸頂部液壓回流入口 15Ε液壓回流管路回流至大型活塞缸底部液壓 回流入口 16液壓油回流管路的回流止逆閥門1&Α液壓油回流管路的回流止逆闊門 16Β液壓 油喊管路的回流止逆閥n 16C回流止逆閥門四方艘盒子構造廳回 流止逆閥門的圓盤蓋子16E回流止逆闕門圓盤蓋子垂直連接的連桿 16F回流止逆闕門後裝置彈$ 16G回流止逆閥門四方麵造隔間與回流 管路八口圓孔 30Outlet 9G Bottom liquid oil returns to α 91 Bottom hydraulic oil out α 9J Bottom hydraulic oil returns to inlet Book peak reaches high point 29 200415309 9L wave valley reaches low point 10 Piston in breakwater hydraulic cylinder is connected to the disc piston of large piston cylinder Lever 11 check valve 11A top check valve 11B bottom check valve 11C check valve tetragonal box structure 11D check valve valve disc cover 11E check valve vertical connecting rod 11F check valve rear device spring 11G non-return valve round hole diversion port 12Y type pipeline 12AY type pipeline is connected to the top non-return valve bifurcation pipeline ι2βγ type pipeline is connected to the bottom non-return valve bifurcation pipeline 12CY type pipeline confluence pipeline 12DY type Confluence of pipelines Connected to one end of wheel pump 13 Pressure accumulator 14 Wheel pump HAY pipeline merge line with wheel pump Hydraulic oil inlet i4B Wheel pump and hydraulic return line Hydraulic oil outlet 14C Wheel pump body 14D Wheel pump blades 14E generator 15 hydraulic return line 15α hydraulic return line bifurcation 15B hydraulic return line via return check valve 15C hydraulic return line return to large piston via return check valve i5D night pressure return line Cylinder top hydraulic return inlet 15E hydraulic return line returns to the bottom of large piston cylinder hydraulic return inlet 16 hydraulic return line return check valve 1 & Α hydraulic return line return check wide door 16B hydraulic return line Backflow check valve n 16C Backflow check valve Quartet box structure hall Disc cover 16E Backflow check valve Disc cover Vertically connected connecting rod 16F Backflow check valve rear device $ 16G Backflow Non-return valve four-way compartment and return line eight holes 30