TWI790159B - Multi-action ocean wave power generation system - Google Patents
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Abstract
Description
本發明係關於一種海浪發電機結構,尤指一種整合多向驅動發電技術達到高效率發電之多向驅動式海浪發電系統。The invention relates to a structure of an ocean wave generator, in particular to a multi-directional drive type ocean wave power generation system which integrates multi-directional drive power generation technology to achieve high-efficiency power generation.
按,現行各國所發展的海浪發電技術,其主要於海岸處或離岸處建置有發電廠,將控制器及發電機裝在發電廠內,並以連桿延伸至大海設有一浮體,透過海浪帶動浮體的上升與下降對連桿形成擺動,藉此將動能傳遞至發電機進行發電,其中,浮體受連桿機構限制只能於特定範圍內擺動,超過範圍的海浪動能將無法被轉換為電能,而且浮體下降行程只為本體的重力速度,其發電量較低,更何況海浪還會受天候與漲退潮所影響,導致發電量不穩定,是故習知之海浪發電技術所存在的明顯缺失為發電效率低,如建置更多組發電機設備則會大幅的增加成本,更是不符合經濟效益,因此海浪發電無法大量被採用與推廣,綜合上述缺失為本創作所欲改善之技術問題點。According to the current wave power generation technology developed by various countries, a power plant is mainly built on the coast or off the coast, the controller and the generator are installed in the power plant, and a floating body is extended to the sea with a connecting rod. The rise and fall of the floating body driven by the waves swings the connecting rod, thereby transferring the kinetic energy to the generator for power generation. Among them, the floating body can only swing within a specific range limited by the connecting rod mechanism, and the kinetic energy of the waves beyond the range will not be able to It is converted into electric energy, and the descending stroke of the floating body is only the gravity speed of the body, so the power generation is low, not to mention that the waves are also affected by the weather and the ebb and flow, resulting in unstable power generation, which is why the known wave power generation technology The obvious deficiency is low power generation efficiency. If more sets of generator equipment are built, the cost will be greatly increased, and it is not in line with economic benefits. Therefore, wave power generation cannot be widely adopted and promoted. Combining the above shortcomings is what this creation wants Improve technical problems.
有鑑於此,本發明人於多年從事相關產品之製造開發與設計經驗,針對上述之目標,詳加設計與審慎評估後,終得一確具實用性之本發明。In view of this, the present inventor has been engaged in the manufacture, development and design of related products for many years. After careful design and careful evaluation for the above-mentioned goals, he finally obtained a practical invention.
本發明所欲解決之技術問題在於針對現有技術存在的上述缺失,提供一種多向驅動式海浪發電系統。The technical problem to be solved by the present invention is to provide a multi-directional drive type ocean wave power generation system for the above-mentioned deficiencies in the prior art.
一第一發電機,其以一轉軸連接有一雙向驅動組件,且由該雙向驅動組件連接有一輸入齒輪,又該輸入齒輪嚙合一齒條,並以該齒條固定於一殼體上;一第二發電機,其以一中心軸連接有一萬向旋轉元件,且由該萬向旋轉元件連接有一第一錐齒輪,又該第一錐齒輪設置於該殼體內;以及一浮體,其中間貫穿有一通孔,且該通孔內裝設有至少一葉扇,又該葉扇軸向延伸設有一第二錐齒輪,且該第二錐齒輪於該殼體內嚙合該第一錐齒輪;該浮體隨著海浪沉浮連動該齒條形成往復直線位移,且依序由該輸入齒輪與該雙向驅動組件驅動該第一發電機,同時海浪穿過該浮體之該通孔而驅動該葉扇,且依序由該第二錐齒輪、第一錐齒輪及該萬向旋轉元件驅動該第二發電機。A first generator, which is connected with a two-way drive assembly with a rotating shaft, and an input gear is connected with the two-way drive assembly, and the input gear meshes with a rack, and is fixed on a housing with the rack; Two generators, which are connected to a universal rotating element with a central shaft, and a first bevel gear is connected to the universal rotating element, and the first bevel gear is arranged in the housing; and a floating body, in the middle There is a through hole through which at least one fan is installed in the through hole, and a second bevel gear is axially extended on the fan, and the second bevel gear meshes with the first bevel gear in the casing; the floating The body moves the rack with the ups and downs of the waves to form a reciprocating linear displacement, and the first generator is driven by the input gear and the bidirectional drive assembly in sequence, and at the same time, the waves pass through the through hole of the floating body to drive the blade fan, And the second generator is sequentially driven by the second bevel gear, the first bevel gear and the universal rotating element.
其中該雙向驅動組件包括有同軸於該第一發電機之轉軸的一從動軸,且該從動軸裝設有一從動齒輪與一從動帶輪,而該從動齒輪、該從動帶輪與該從動軸之間皆裝設有一單向棘輪,該雙向驅動組件包括有同軸於該輸入齒輪的一主動軸,且該主動軸裝設有一主動齒輪與一主動帶輪,又該主動齒輪與該從動齒輪互相嚙合,而該主動帶輪與該從動帶輪之間套設有一帶體。Wherein the two-way drive assembly includes a driven shaft coaxial with the rotating shaft of the first generator, and the driven shaft is equipped with a driven gear and a driven pulley, and the driven gear, the driven belt A one-way ratchet is installed between the wheel and the driven shaft, and the two-way drive assembly includes a drive shaft coaxial with the input gear, and the drive shaft is equipped with a drive gear and a drive pulley, and the drive The gear and the driven gear mesh with each other, and a band is sheathed between the driving pulley and the driven pulley.
其中該雙向驅動組件包括有同軸於該第一發電機之轉軸的一副軸,且該副軸裝設有一第一轉輪與一第二轉輪,又該第一轉輪、該第二轉輪與該副軸之間皆裝設有一單向軸承,該雙向驅動組件包括有同軸於該輸入齒輪的一主軸,且該主軸固定套設有一第三轉輪與空轉套設一第四轉輪,另該主軸與該副軸互相交叉狀設置,且該第一轉輪、該第二轉輪、該第三轉輪及第四轉輪之間圈繞套設有一環狀帶體。Wherein the two-way drive assembly includes a secondary shaft coaxial with the rotating shaft of the first generator, and the secondary shaft is equipped with a first runner and a second runner, and the first runner, the second runner A one-way bearing is installed between the wheel and the countershaft. The two-way drive assembly includes a main shaft coaxial with the input gear, and the main shaft is fixedly sleeved with a third runner and idly sleeved with a fourth runner. , and the main shaft and the auxiliary shaft are intersected with each other, and an annular belt is encircled between the first runner, the second runner, the third runner and the fourth runner.
其中該第一發電機以一轉軸連接有一渦輪驅動組件,且由該渦輪驅動組件連接有一氣壓缸,又該氣壓缸內部設置有一活塞,且該活塞穿出該氣壓缸以一推桿固定於一殼體上,該渦輪驅動組件包括有一氣渦輪與一儲氣桶,該氣渦輪連接於該第一發電機之轉軸,該儲氣桶以二單向閥管連接該氣壓缸兩端,讓該氣壓缸在往復行程皆能注入空氣於該儲氣桶,又該氣渦輪與該儲氣桶之間相通有一送氣管,並以壓縮空氣帶動該氣渦輪旋轉驅動該第一發電機發電,其中,上述機構同理能變更為注入液體,由循環液體驅動液渦輪,亦能達到等效之發電目的。Wherein the first generator is connected with a turbine drive assembly with a rotating shaft, and a pneumatic cylinder is connected with the turbine drive assembly, and a piston is arranged inside the pneumatic cylinder, and the piston passes through the pneumatic cylinder and is fixed on a push rod. On the casing, the turbine drive assembly includes a gas turbine and an air storage tank, the gas turbine is connected to the shaft of the first generator, and the gas storage tank is connected to both ends of the pneumatic cylinder with two one-way valve pipes, so that the The pneumatic cylinder can inject air into the air storage barrel during the reciprocating stroke, and an air supply pipe is communicated between the gas turbine and the air storage barrel, and the compressed air drives the gas turbine to rotate and drive the first generator to generate electricity, wherein, The above-mentioned mechanism can also be changed to inject liquid, and the liquid turbine is driven by the circulating liquid, and the equivalent power generation purpose can also be achieved.
其中該浮體於朝向海浪一面形成有向該通孔方向凹入的一圓錐面,且該圓錐面導引海浪流入該通孔。Wherein the floating body is formed with a conical surface concave toward the through hole on the side facing the sea wave, and the conical surface guides the sea wave to flow into the through hole.
其中該萬向旋轉元件包括有至少一萬向接頭(Universal Joint)與一花鍵軸(Spline Shaft),該萬向接頭兼具有傳遞旋轉動能與容許該萬向旋轉元件上下位移之功能,且該花鍵軸兼具有傳遞旋轉動能與容許該萬向旋轉元件前後伸縮之功能。Wherein the universal rotating element includes at least one universal joint (Universal Joint) and a spline shaft (Spline Shaft), the universal joint has the functions of transmitting rotational kinetic energy and allowing the universal rotating element to move up and down, and The spline shaft has the functions of transmitting rotational kinetic energy and allowing the universal rotating element to expand and contract.
其中該萬向旋轉元件為一種等速萬向節(Constant Velocity Joint;CV Joint),其包括有一輸入萬向節、一輸出萬向節與一驅動軸,該驅動軸一端穿入該輸入萬向節,並於該輸入萬向節內形成有一位移頭,該驅動軸另一端穿入該輸出萬向節,並於該輸出萬向節內形成有一旋轉頭,該輸入萬向節兼具有傳遞旋轉動能與容許該萬向旋轉元件前後伸縮之功能,且該輸出萬向節兼具有傳遞旋轉動能與容許該萬向旋轉元件上下位移之功能。Wherein the universal rotating element is a constant velocity universal joint (Constant Velocity Joint; CV Joint), which includes an input universal joint, an output universal joint and a drive shaft, and one end of the drive shaft passes through the input universal joint joint, and a displacement head is formed in the input universal joint, the other end of the drive shaft passes through the output universal joint, and a rotating head is formed in the output universal joint, the input universal joint also has the function of transmission The function of rotating kinetic energy and allowing the universal rotating element to stretch back and forth, and the output universal joint has the function of transmitting rotating kinetic energy and allowing the universal rotating element to move up and down.
其中該萬向旋轉元件設有至少一撓性軸(Flexible Shaft),該撓性軸一端連接該第二發電機,且該撓性軸另一端連接該第一錐齒輪,且該撓性軸具有傳遞旋轉動能之功能,並兼具有容許前後伸縮與上下扭擺之功能。Wherein the universal rotating element is provided with at least one flexible shaft (Flexible Shaft), one end of the flexible shaft is connected to the second generator, and the other end of the flexible shaft is connected to the first bevel gear, and the flexible shaft has It has the function of transmitting rotational kinetic energy, and also has the function of allowing back and forth expansion and up and down torsion.
其中該第一發電機之轉軸與該第二發電機之中心軸皆連接有一慣性飛輪。Wherein the rotating shaft of the first generator and the central shaft of the second generator are connected with an inertia flywheel.
本發明的主要目的在於,該浮體隨著海浪沉浮連動該齒條形成往復直線位移,且依序由該輸入齒輪與該雙向驅動組件驅動該第一發電機,藉此透過該浮體產生有升降驅動發電效果,同時海浪穿過該浮體之該通孔而驅動該葉扇,且依序由該第二錐齒輪、第一錐齒輪及該萬向旋轉元件驅動該第二發電機,藉此透過該浮體產生有旋轉驅動發電效果,俾以整合多向驅動發電技術達到高效率發電之功能。The main purpose of the present invention is that the floating body moves the rack along with the ups and downs of the sea to form a reciprocating linear displacement, and the first generator is sequentially driven by the input gear and the bidirectional drive assembly, so as to generate an active motor through the floating body. Lifting drives the power generation effect, and at the same time, the sea wave passes through the through hole of the floating body to drive the blade fan, and the second generator is driven by the second bevel gear, the first bevel gear and the universal rotating element in sequence, by Through the floating body, there is a rotary drive power generation effect, so as to integrate the multi-directional drive power generation technology to achieve high-efficiency power generation.
其他目的、優點和本創作的新穎特性將從以下詳細的描述與相關的附圖更加顯明。Other objects, advantages and novel features of the invention will be more apparent from the following detailed description and associated drawings.
為使 貴審查委員對本發明之目的、特徵及功效能夠有更進一步之瞭解與認識,以下茲請配合(圖式簡單說明)詳述如後:In order to enable your review committee members to have a further understanding and understanding of the purpose, characteristics and effects of the present invention, please cooperate with (simple description of the drawings) and describe in detail as follows:
先請由圖1所示觀之,一種多向驅動式海浪發電系統,包括:一第一發電機10、一雙向驅動組件20、一第二發電機30、一萬向旋轉元件40及一浮體50,一第一發電機10以一轉軸101連接有一雙向驅動組件20,且由該雙向驅動組件20連接有一輸入齒輪11,又該輸入齒輪11嚙合一齒條12,並以該齒條12固定於一殼體13上,該雙向驅動組件20包括有同軸於該第一發電機10之轉軸101的一從動軸21,且該從動軸21裝設有一從動齒輪211與一從動帶輪212,而該從動齒輪211、該從動帶輪212與該從動軸21之間皆裝設有一單向棘輪213,其中,兩該單向棘輪213皆為順時針旋轉呈未驅動狀態而逆時針旋轉呈驅動狀態,又該雙向驅動組件20更包括有同軸於該輸入齒輪11的一主動軸22,且該主動軸22裝設有一主動齒輪221與一主動帶輪222,該主動齒輪221與該從動齒輪211互相嚙合,而該主動帶輪222與該從動帶輪212之間套設有一帶體223,一第二發電機30以一中心軸301連接有一萬向旋轉元件40,且由該萬向旋轉元件40連接有一第一錐齒輪31,又該第一錐齒輪31設置於該殼體13內,一浮體50中間貫穿有一通孔51,且該通孔51內裝設有至少一葉扇52,又該葉扇52軸向延伸設有一第二錐齒輪53,且該第二錐齒輪53於該殼體13內嚙合該第一錐齒輪31,又該浮體50於朝向海浪一面形成有向該通孔51方向凹入的一圓錐面54,且該圓錐面54導引海浪流入該通孔51,當該浮體50隨著海浪沉浮連動該齒條12形成往復直線位移,且依序由該輸入齒輪11與該雙向驅動組件20驅動該第一發電機10,藉此透過該浮體50產生有升降驅動發電效果,同時海浪穿過該浮體50之該通孔51而驅動該葉扇52,且依序由該第二錐齒輪53、第一錐齒輪31及該萬向旋轉元件40驅動該第二發電機30,藉此透過該浮體50產生有旋轉驅動發電效果,俾以整合多向驅動發電技術達到高效率發電之功能。First, please view it as shown in Figure 1, a multi-directional drive type wave power generation system, including: a
再進一步說明其作動,請由圖2所示,該浮體50的密度小於海水,即能常態漂浮於海面上並隨著海浪上升與下降,當該浮體50上升時,將推動該殼體13與該齒條12同步上升,且由該齒條12驅動該輸入齒輪11產生逆時針方向旋轉,再配合圖3所示,該雙向驅動組件20之主動齒輪221與主動帶輪222皆同步該輸入齒輪11進行逆時針方向旋轉,此時,嚙合於該主動齒輪221的該從動齒輪211為順時針方向旋轉,且因為該單向棘輪213的空轉而未驅動該從動軸21,又該主動帶輪222以該帶體223帶動該從動帶輪212產生逆時針方向旋轉,同時讓該單向棘輪213連動該從動軸21逆時針方向旋轉,藉此將旋轉動能傳遞至該第一發電機10進行發電,其中該第一發電機10之轉軸101連接有一慣性飛輪14,由該慣性飛輪14的慣性旋轉形成該第一發電機10的穩定旋轉,同理如圖4所示,當該浮體50下降時,將推動該殼體13與該齒條12同步下降,且由該齒條12驅動該輸入齒輪11產生順時針方向旋轉,該雙向驅動組件20之主動齒輪221與主動帶輪222皆同步該輸入齒輪11進行順時針方向旋轉,此時,嚙合於該主動齒輪221的該從動齒輪211為逆時針方向旋轉,是故該單向棘輪213能驅動該從動軸21,藉此將旋轉動能傳遞至該第一發電機10進行發電,而該主動帶輪222以該帶體223帶動該從動帶輪212產生順時針方向旋轉,讓該單向棘輪213的空轉而未驅動該從動軸21,綜上所述,該浮體50在上升過程與下降過程皆能驅動該第一發電機10進行發電,藉此有效提升其發電效率。Further explaining its operation, as shown in Figure 2, the density of the
又如圖2所示,該萬向旋轉元件40的一實施例,該萬向旋轉元件40包括有至少一萬向接頭41(Universal Joint)與一花鍵軸42(Spline Shaft),該萬向接頭41兼具有傳遞旋轉動能與容許該萬向旋轉元件40上下位移之功能,且該花鍵軸42兼具有傳遞旋轉動能與容許該萬向旋轉元件40前後伸縮之功能,即該浮體50在上升的同時,海浪將會向上推擠的流過該通孔51,其推力能驅動該葉扇52產生旋轉,該葉扇52的旋轉連動該第二錐齒輪53,並由該第二錐齒輪53驅動該第一錐齒輪31,又該第二發電機30與該第一錐齒輪31之間連接有該萬向接頭41與該花鍵軸42,而該萬向接頭41與該花鍵軸42不影響該第一錐齒輪31將旋轉動態傳遞至該第二發電機30進行發電,同時由該萬向接頭41容許該第一錐齒輪31的上下位移,且該花鍵軸42容許該萬向旋轉元件40的前後伸縮,藉此整合兼具有往復位移與旋轉之多向發電功能。其中,該第二發電機30之中心軸301連接有一慣性飛輪34,由該慣性飛輪34的慣性旋轉形成該第二發電機30的穩定旋轉,更進一步說明,該浮體50受到該齒條12的有效行程限制,當該浮體50上升至最大高度時,海浪將無法進一步推升該浮體50,此時海浪的上升位能會增加海水流過該通孔51之水壓與流速,讓該葉扇52的轉速提升,即能有效利用超過該浮體50最大上升高度的海浪位能,俾以進一步提高其發電效率,另外該浮體50於朝向海浪一面形成有向該通孔51方向凹入的該圓錐面54,該圓錐面54有利於導引海浪流入該通孔51,使海浪能集中作用於該葉扇52處,藉此亦能提高其發電效率。As shown in Figure 2, an embodiment of the universal rotating
該雙向驅動組件20的另一實施例,請由圖5、圖6及圖7所示,該雙向驅動組件20包括有同軸於該第一發電機10之轉軸101的一副軸23,且該副軸23裝設有一第一轉輪231與一第二轉輪232,又該第一轉輪231、該第二轉輪232與該副軸23之間皆裝設有一單向軸承233,其中,兩該單向軸承233皆為順時針旋轉呈未驅動狀態而逆時針旋轉呈驅動狀態,該雙向驅動組件20包括有同軸於該輸入齒輪11的一主軸24,且該主軸24固定套設有一第三轉輪241與空轉套設一第四轉輪242,另該主軸24與該副軸23互相交叉狀設置,且該第一轉輪231、該第二轉輪232、該第三轉輪241及第四轉輪242之間圈繞套設有一環狀帶體25,於實際作動時,該齒條12驅動該輸入齒輪11產生順時針方向旋轉時,該主軸24與該第三轉輪241將同步該輸入齒輪11形成順時針方向旋轉,而該第四轉輪242不受該主軸24帶動,又該第三轉輪241帶動該環狀帶體25,讓該環狀帶體25同時轉動該第一轉輪231、該第二轉輪232及該第四轉輪242,其中,該第二轉輪232為順時針方向旋轉,此狀態將無法帶動該單向軸承233與該副軸23,又該第一轉輪231為逆時針方向旋轉,並能以該單向軸承233帶動該副軸23,藉此驅動該第一發電機10進行發電,反之,逆時針方向旋轉的該第三轉輪241帶動該第一轉輪231順時針方向旋轉與該第二轉輪232逆時針方向旋轉,該第一轉輪231無法驅動該副軸23,而該第二轉輪232以該副軸23帶動該第一發電機10進行發電,藉此在海浪上升與下降時皆能有效進行發電,俾以提高其發電量。Another embodiment of the two-
該萬向旋轉元件40的另一實施例,請由圖8及圖9所示,該萬向旋轉元件40為一種等速萬向節(Constant Velocity Joint;CV Joint),其包括有一輸入萬向節43、一輸出萬向節44與一驅動軸45,該驅動軸45一端穿入該輸入萬向節43,並於該輸入萬向節43內形成有一位移頭451,該驅動軸45另一端穿入該輸出萬向節44,並於該輸出萬向節44內形成有一旋轉頭452,該位移頭451能沿著該輸入萬向節43前後位移,且該旋轉頭452能沿著該輸出萬向節44進行旋轉,即該輸入萬向節43兼具有傳遞旋轉動能與容許該萬向旋轉元件40前後伸縮之功能,且該輸出萬向節44兼具有傳遞旋轉動能與容許該萬向旋轉元件40上下位移之功能,藉此整合兼具有往復位移與旋轉之多向發電功能。Another embodiment of the universal rotating
該萬向旋轉元件40的再一實施例,請由圖10所示,該萬向旋轉元件40設有至少一撓性軸46(Flexible Shaft),該撓性軸46一端連接該第二發電機30,且該撓性軸46另一端連接該第一錐齒輪31,據此,該第一錐齒輪31受驅動旋轉時,該撓性軸46將能同步旋轉帶動該第二發電機30,即該撓性軸46具有傳遞旋轉動能之功能,又該撓性軸46兼具有容許前後伸縮與上下扭擺之功能,藉此整合兼具有往復位移與旋轉之多向發電功能。
Another embodiment of the universal rotating
本創作之另一實施例,再請由圖11所示觀之,該第一發電機10以一轉軸101連接有一渦輪驅動組件60,且由該渦輪驅動組件60連接有一氣壓缸61,又該氣壓缸61內部設置有一活塞62,且該活塞62穿出該氣壓缸61以一推桿621固定於一殼體13上,該渦輪驅動組件60包括有一氣渦輪63與一儲氣桶64,該氣渦輪63連接於該第一發電機10之轉軸101,該儲氣桶64以二單向閥管641連接該氣壓缸61兩端,透過該浮體50帶動該推桿621往復位移,該氣壓缸61內的活塞62推動空氣只能單向流至該儲氣桶64內,即該氣壓缸61在往復行程皆能注入空氣於該儲氣桶64,又該氣渦輪63與該儲氣桶64之間相通有一送氣管65,而該送氣管65上另可裝設有一開關651,且該開關651能控制流入該氣渦輪63的最大流量與關閉該送氣管65,其中,該浮體50隨著海浪沉浮連動該活塞62形成往復直線位移,在該活塞62上移或下移時皆能擠壓空氣流過該單向閥管641,讓壓縮空氣儲存於該儲氣桶64內,並以可控空氣流量驅動該氣渦輪63,即以壓縮空氣帶動該氣渦輪63旋轉驅動該第一發電機10發電,藉此達到該浮體50於上升或下降時皆能有效發電之目的,其中,該第一發電機10亦能由一種線性發電機替換,讓該推桿621直接往復驅動該第一發電機10以往復線性運動進行發電,為本發明能達到多向驅動發電之等效應用。再者,上述機構同理能變更為注入液體,由循環液體驅動液渦輪,亦能達到等效之發電目的Another embodiment of this creation, again please look at as shown in Figure 11, this
綜上所述,本發明確實已達突破性之結構設計,而具有改良之發明內容,同時又能夠達到產業上之利用性與進步性,且本發明未見於任何刊物,亦具新穎性,當符合專利法相關法條之規定,爰依法提出發明專利申請,懇請 鈞局審查委員授予合法專利權,至為感禱。To sum up, the present invention has indeed achieved a breakthrough structural design, has improved invention content, and at the same time can achieve industrial applicability and progress, and the present invention has not been seen in any publications, and it is also novel. In line with the provisions of the relevant laws and regulations of the Patent Law, I filed an application for a patent for invention according to the law, and I sincerely request the examination committee of the Jun Bureau to grant a legal patent right. I sincerely pray for it.
唯以上所述者,僅為本發明之一較佳實施例而已,當不能以之限定本發明實施之範圍;即大凡依本發明申請專利範圍所作之均等變化與修飾,皆應仍屬本發明專利涵蓋之範圍內。Only the above is only a preferred embodiment of the present invention, and should not be used to limit the scope of the present invention; that is, all equivalent changes and modifications made according to the patent scope of the present invention should still belong to the present invention within the scope of the patent.
[本發明]
10:第一發電機
101:轉軸
11:輸入齒輪
12:齒條
13:殼體
14、34:慣性飛輪
20:雙向驅動組件
21:從動軸
211:從動齒輪
212:從動帶輪
213:單向棘輪
22:主動軸
221:主動齒輪
222:主動帶輪
223:帶體
23:副軸
231:第一轉輪
232:第二轉輪
233:單向軸承
24:主軸
241:第三轉輪
242:第四轉輪
25:環狀帶體
30:第二發電機
301:中心軸
31:第一錐齒輪
40:萬向旋轉元件
41:萬向接頭
42:花鍵軸
43:輸入萬向節
44:輸出萬向節
45:驅動軸
451:位移頭
452:旋轉頭
46:撓性軸
50:浮體
51:通孔
52:葉扇
53:第二錐齒輪
54:圓錐面
60:渦輪驅動組件
61:氣壓缸
62:活塞
621:推桿
63:氣渦輪
64:儲氣桶
641:單向閥管
65:送氣管
651:開關
[this invention]
10: First Generator
101: Shaft
11: Input gear
12: Rack
13:
圖1 係本發明之結構示意圖。 圖2 係本發明之作動示意圖。 圖3 係本發明之雙向驅動組件之作動示意圖(一)。 圖4 係本發明之雙向驅動組件之作動示意圖(二)。 圖5 係本發明之雙向驅動組件另一實施例之示意圖。 圖6 係本發明之雙向驅動組件另一實施例之作動示意圖(一)。 圖7 係本發明之雙向驅動組件另一實施例之作動示意圖(二)。 圖8 係本發明之萬向旋轉元件另一實施例之示意圖。 圖9 係本發明之萬向旋轉元件另一實施例之作動示意圖。 圖10 係本發明之萬向旋轉元件再一實施例之示意圖。 圖11 係本發明另一實施例之結構示意圖。 Fig. 1 is a schematic diagram of the structure of the present invention. Fig. 2 is a schematic diagram of the operation of the present invention. Fig. 3 is a schematic diagram (1) of the operation of the bidirectional drive assembly of the present invention. Fig. 4 is a schematic diagram (2) of the operation of the bidirectional drive assembly of the present invention. Fig. 5 is a schematic diagram of another embodiment of the bidirectional drive assembly of the present invention. Fig. 6 is a schematic diagram (1) of the operation of another embodiment of the bidirectional drive assembly of the present invention. Fig. 7 is a schematic diagram (2) of the operation of another embodiment of the bidirectional drive assembly of the present invention. Fig. 8 is a schematic diagram of another embodiment of the universal rotating element of the present invention. Fig. 9 is a schematic diagram of the operation of another embodiment of the universal rotating element of the present invention. Fig. 10 is a schematic diagram of another embodiment of the universal rotating element of the present invention. Fig. 11 is a schematic structural diagram of another embodiment of the present invention.
10:第一發電機 10: First Generator
101:轉軸 101: Shaft
11:輸入齒輪 11: Input gear
12:齒條 12: Rack
13:殼體 13: Housing
14、34:慣性飛輪 14, 34: Inertia flywheel
20:雙向驅動組件 20: Two-way drive components
21:從動軸 21: driven shaft
211:從動齒輪 211: driven gear
212:從動帶輪 212: driven pulley
22:主動軸 22: Driving shaft
221:主動齒輪 221: Driving gear
222:主動帶輪 222: Driving pulley
223:帶體 223: belt body
30:第二發電機 30: Second Generator
301:中心軸 301: central axis
31:第一錐齒輪 31: First bevel gear
40:萬向旋轉元件 40: Universal rotating element
41:萬向接頭 41: universal joint
42:花鍵軸 42: spline shaft
50:浮體 50: floating body
51:通孔 51: Through hole
52:葉扇 52:leaf fan
53:第二錐齒輪 53: Second bevel gear
54:圓錐面 54: conical surface
Claims (10)
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TW201602450A (en) * | 2014-07-08 | 2016-01-16 | 財團法人工業技術研究院 | Wave power generation system and motion control module thereof |
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CN214660595U (en) * | 2021-02-05 | 2021-11-09 | 广东海洋大学 | Floating type ocean wave energy power generation device |
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2022
- 2022-04-14 TW TW111114256A patent/TWI790159B/en active
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TWM425173U (en) * | 2011-07-18 | 2012-03-21 | Tai-Lin Lu | Wave-energy generator device |
TW201602450A (en) * | 2014-07-08 | 2016-01-16 | 財團法人工業技術研究院 | Wave power generation system and motion control module thereof |
CN108915941A (en) * | 2018-07-03 | 2018-11-30 | 温州冲亚电子科技有限公司 | A kind of bank formula wave-energy power generation equipment |
CN214660595U (en) * | 2021-02-05 | 2021-11-09 | 广东海洋大学 | Floating type ocean wave energy power generation device |
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