TWM546995U - Hydraulic power gravity circulation power generation device - Google Patents
Hydraulic power gravity circulation power generation device Download PDFInfo
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- TWM546995U TWM546995U TW106203635U TW106203635U TWM546995U TW M546995 U TWM546995 U TW M546995U TW 106203635 U TW106203635 U TW 106203635U TW 106203635 U TW106203635 U TW 106203635U TW M546995 U TWM546995 U TW M546995U
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- 238000010248 power generation Methods 0.000 title claims description 53
- 230000005484 gravity Effects 0.000 title claims description 18
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 239
- 230000005540 biological transmission Effects 0.000 claims description 74
- 238000011084 recovery Methods 0.000 claims description 18
- 238000004064 recycling Methods 0.000 claims description 5
- 238000005086 pumping Methods 0.000 claims description 2
- 230000005611 electricity Effects 0.000 description 5
- 230000000694 effects Effects 0.000 description 4
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical compound C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 description 4
- 241000282414 Homo sapiens Species 0.000 description 3
- 238000010586 diagram Methods 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 3
- 238000012423 maintenance Methods 0.000 description 3
- 235000007575 Calluna vulgaris Nutrition 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 239000003345 natural gas Substances 0.000 description 2
- 239000002028 Biomass Substances 0.000 description 1
- 229910052770 Uranium Inorganic materials 0.000 description 1
- 239000003245 coal Substances 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 125000004122 cyclic group Chemical group 0.000 description 1
- 230000003203 everyday effect Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 239000003921 oil Substances 0.000 description 1
- 238000005381 potential energy Methods 0.000 description 1
- 230000001172 regenerating effect Effects 0.000 description 1
- 230000035936 sexual power Effects 0.000 description 1
- JFALSRSLKYAFGM-UHFFFAOYSA-N uranium(0) Chemical compound [U] JFALSRSLKYAFGM-UHFFFAOYSA-N 0.000 description 1
- 238000010792 warming Methods 0.000 description 1
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/20—Hydro energy
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Description
本新型涉及一種水力發電結構,尤指一種水力重力循環發電裝置。 The invention relates to a hydropower generation structure, in particular to a hydraulic gravity cycle power generation device.
一切可以為人類提供能量的資源統稱能源,其中能源的種類,以再生能力來區分,可以區分為兩大類,一是非再生能源[耗竭性能源]、一是再生能源[非耗竭性能源];非再生能源如煤、石油、天然氣、鈾等,而再生能源如太陽能、水力能、風能、生質能、地熱能、海洋能等。 All resources that can provide energy for human beings are collectively referred to as energy. The types of energy, distinguished by regenerative capacity, can be divided into two categories, one is non-renewable energy [exhaustive energy], and the other is renewable energy [non-exhaustive energy]; Renewable energy sources such as coal, oil, natural gas, uranium, etc., and renewable energy sources such as solar energy, hydropower, wind energy, biomass energy, geothermal energy, ocean energy, etc.
隨著科技的進步及物質文明的普及,人類每天生活必須依賴能源,能源資源的發展,是成為發達社會的先決條件,通過能源科技的發展,可以有效地提升人類的生活品質以及國家經濟發展的原動力。 With the advancement of science and technology and the popularization of material civilization, human beings must rely on energy every day. The development of energy resources is a prerequisite for becoming a developed society. Through the development of energy science and technology, human life quality and national economic development can be effectively improved. Motive force.
自從工業革命以來,能源的使用越來越多,同時也帶來如全球暖化,對目前全世界有潛在嚴重風險的此一問題。 Since the industrial revolution, the use of energy has increased, and it has also brought about such a problem that there is a potential serious risk to the world, such as global warming.
現行獲得能源的方法,以火力、水力、天然氣、太陽能電池、風力、以及核能等屬於較普遍的方式,但除了水力、太陽能電池、風力之外的能源獲取方式,都會對環境產生極大的污染。 Current methods of obtaining energy, such as firepower, water, natural gas, solar cells, wind power, and nuclear energy, are more common methods, but in addition to water, solar cells, and wind power, the way of obtaining energy will cause great pollution to the environment.
在水力、太陽能電池、風力等獲得能源的方式中,又以水力最為穩定、最便於應用,但需要建造水庫及大型變電廠,整體的建構成本昂貴、技術複雜,而且由於大型水力發電系統占據面積龐大,系統的維護有其困難性。 In the way of obtaining energy such as water, solar cells, wind power, etc., the hydraulic power is the most stable and most convenient to apply, but it is necessary to build a reservoir and a large-scale substation. The overall construction cost is expensive, the technology is complicated, and the area occupied by the large hydropower system Huge, the maintenance of the system has its difficulties.
同時,產生的電能多是透過大型的供電系統,遠距離傳送至用電地區,若供電系統遭受損害時,將導致用電地區無法正常供電。 At the same time, most of the generated electric energy is transmitted to the power-consuming area through a large-scale power supply system. If the power supply system is damaged, the power supply area will not be able to supply power normally.
另一方面,因為是建置水庫將河川阻擋,進而達到集水的效果,所以一但遇到乾旱季節,便有無法發電的狀況產生。 On the other hand, because the reservoir is built to block the river and achieve the effect of collecting water, once the dry season is encountered, there is a situation in which power generation cannot be achieved.
有鑑於此,如何提供一種能解決前述問題,進而解決能源使用時所帶來之種種問題,並有利於再生能源之永續發展的水力重力循環發電裝置,便成為本新型欲改進的目的。 In view of this, how to provide a hydraulic gravity cycle power generation device that can solve the above problems and solve various problems brought about by energy use and is conducive to the sustainable development of renewable energy has become the object of the present invention.
本新型目的在於提供一種能降低水力發電成本、容易設置應用的水力重力循環發電裝置。 The present invention aims to provide a hydraulic gravity cycle power generation device that can reduce the cost of hydropower generation and is easy to set up.
為解決上述問題及達到本新型的目的,本新型的技術手段,是這樣實現的,為一種水力重力循環發電裝置,其特徵在於:所述發電裝置(100),其包括有一主發電裝置(1)、以及至少一輔助發電裝置(2);所述主發電裝置(1),其包括有一主發電機(11)、一軸設於所述主發電機(11)右側的右動力飛輪(12)、一軸設於所述主發電機(11)左側的左動力飛輪(13)、一軸設於所述右動力飛輪(12)右側的右加力飛輪組(14)、一軸設於所述右動力飛輪(12)和所述右加力飛輪組(14)間的右主離合器(15)、一軸設於所述左動力飛輪(13)左側的左加力飛輪組(16)、及一軸設於所述左動力飛輪(13)和所述左加力飛輪組(16)間的左主離合器(17);所述輔助發電裝置(2),其包括有至少一第一輔助發電組(21)、及至少一第二輔助發電組(22),所述第一輔助發電組(21)及第二輔助發電組(22)兩者,皆包括有一左水輸送裝置(10)、一右水輸送裝置(10’)、一左水循環裝置(20)、一右水循環裝置(20’)、一左變速裝置(30)、一右變速裝置(30’)、一傳動裝置(40)、一副發電機(50)、一副離合器(60)、及一加力飛輪組(70);所述左水輸送裝置(10),其為設於所述 副發電機(50)左側,而所述右水輸送裝置(10’),其為設於所述副發電機(50)右側;前述左水輸送裝置(10)與所述右水輸送裝置(10’),其兩者皆包括有一主儲水槽(101)、數個由所述主儲水槽(101)頂端依序間隔向上而設置的副儲水槽(102)、數個各自設置於所述主儲水槽(101)和各個所述副儲水槽(102)內的抽水泵(103)、及一間隔設於位於最頂端之所述副儲水槽(102)上的給水槽(104),前述抽水泵(103)間相互連接、以將所述主儲水槽(101)內的水輸送至所述給水槽(104)內,前述給水槽(104)能控制水輸出至所述水循環裝置(20)的量;所述左水循環裝置(20),其為設於所述副發電機(50)左側、並對應於所述左水輸送裝置(10),而所述右水循環裝置(20’),其為設於所述副發電機(50)右側、並對應於所述右水輸送裝置(10’);前述左水循環裝置(20)與所述右水循環裝置(20’),其兩者皆包括有一與水平面呈一角度而由上至下延伸設置的引導單元(201)、一設置於所述引導單元(201)頂端的傳動單元(202)、數個滑動設置於所述引導單元(201)上的承水槽(203)、一設於所述傳動單元(202)一端的止逆單元(204)、及一設於所述止逆單元(204)另一端並能帶動各個所述承水槽(203)的回收單元(205),前述承水槽(203)能承接所述給水槽(104)所輸出的水;所述左水循環裝置(20)的所述承水槽(203),其起始位置為所述引導單元(201)頂端,故當所有所述承水槽(203)皆裝滿水時,所述承水槽(203)便能開始利用重力,而由所述引導單元(201)頂端往底端處移動、最終於底端將水倒回至所述主儲水槽(101)內,所述回收單元(205)能於所有所述承水槽(203)皆放完水後,才將所有所述承水槽(203)帶回至所述引導單元(201)頂端,而所述右水循環裝置(20’)的所述承水槽(203)起始位置為所述引導單元(201)底端,與所述左水循環裝置(20)相異,故運轉模式與所述右水循環裝置(20’)相互顛倒;所述左變速裝置(30),其為與所述左水循環裝置(20)的所述傳動單元(202)另一端連接,能將所述傳動單元(202)所傳 遞而來的轉速提高後輸出;所述右變速裝置(30’),其為與所述右水循環裝置(20’)的所述傳動單元(202)另一端連接,能將所述傳動單元(202)所傳遞而來的轉速提高後輸出;所述傳動裝置(40),其包括有一傳動軸(401)、及一撓性連接器(402),所述傳動軸(401)為設於所述左變速裝置(30)與所述右變速裝置(30’)間,所述撓性連接器(402)為將所述傳動軸(401)與所述副發電機(50)連接,以通過所述左水循環裝置(20)與所述右水循環裝置(20’)一上一下地循環運作,驅動所述副發電機(50)運作;所述副發電機(50),其為與所述傳動裝置(40)連接;所述副離合器(60),其為設於所述副發電機(50)與所述加力飛輪組(70)間,能可選擇性地連接所述副發電機(50)與所述加力飛輪組(70);所述右動力飛輪(12),其包括有一右飛輪本體(121)、對應所述右飛輪本體(121)而設置的一右動力馬達(122)、對應軸設於所述右飛輪本體(121)與所述右加力飛輪組(14)間的一右加力離合單元(123)、及對應所述右動力馬達(122)而設置的至少一右動力傳動單元(124);所述左動力飛輪(13),其包括有一左飛輪本體(131)、對應所述左飛輪本體(131)而設置的一左動力馬達(132)、對應軸設於所述左飛輪本體(131)與所述左加力飛輪組(16)間的一左加力離合單元(133)、及對應所述左動力馬達(132)而設置的至少一左動力傳動單元(134);所述右加力飛輪組(14)、所述左加力飛輪組(16)及所述加力飛輪組(70),其三者皆包括有至少一個以上的加力飛輪本體(A)、對應軸設於所述加力飛輪本體(A)間的一離合單元(B)、對應所述加力飛輪本體(A)而套設於其外的至少一傳動單元(C)、及對應設於所述加力飛輪本體(A)一側的離合單元(D),前述離合單元(D)能可選擇性地讓所述加力飛輪本體(A)相互連接並連動;而所述右加力飛輪組(14),其還包括有對應於所述而設置,並能通過所述傳動單元(C)以帶動對應之所述加力飛輪本體(A)轉動的右加力馬達(141);而所述左加力飛輪組(16),其還包括有對應於所述 而設置,並能通過所述傳動單元(C)以帶動對應之所述加力飛輪本體(A)轉動的左加力馬達(161);而所述加力飛輪組(70),其還包括有對應於所述而設置,並能通過所述傳動單元(C)以帶動對應之所述加力飛輪本體(A)轉動的加力馬達(701);所述第一輔助發電組(21),其包含的所述副發電機(50),為與所述右動力馬達(122)、所述左動力馬達(132)、所述右加力馬達(141)及所述左加力馬達(161)電連接;所述第二輔助發電組(22),其包含的所述副發電機(50),為與所述第一輔助發電組(21)的所述抽水泵(103)、及所述加力馬達(701)電連接;另所述第二輔助發電組(22),其包含的所述抽水泵(103)及所述加力馬達(701)為與外部電源(200)電連接。 In order to solve the above problems and achieve the object of the present invention, the technical means of the present invention is realized as a hydraulic gravity cycle power generation device, characterized in that the power generation device (100) includes a main power generation device (1) And at least one auxiliary power generating device (2); the main power generating device (1) comprising a main generator (11), a right power flywheel (12) provided on a right side of the main generator (11) a left power flywheel (13) disposed on a left side of the main generator (11), a right afterpower flywheel set (14) disposed on a right side of the right power flywheel (12), and an axis disposed on the right power a right main clutch (15) between the flywheel (12) and the right afterpower flywheel (14), a left afterpower flywheel set (16) disposed on the left side of the left power flywheel (13), and a shaft disposed on a left main clutch (17) between the left power flywheel (13) and the left afterpower flywheel set (16); the auxiliary power generating device (2) including at least one first auxiliary power generation group (21) And at least one second auxiliary power generation group (22), wherein the first auxiliary power generation group (21) and the second auxiliary power generation group (22) both include a left water transmission Device (10), a right water transport device (10'), a left water circulation device (20), a right water circulation device (20'), a left shifting device (30), a right shifting device (30'), a a transmission device (40), a pair of generators (50), a pair of clutches (60), and an afterburner flywheel assembly (70); the left water delivery device (10) is provided a right side of the secondary generator (50), and the right water delivery device (10') is disposed on the right side of the secondary generator (50); the left water delivery device (10) and the right water delivery device ( 10'), both of which comprise a main water storage tank (101), a plurality of secondary water storage tanks (102) arranged in an upward interval from the top end of the main water storage tank (101), and a plurality of each of which is disposed in the a main water storage tank (101) and a pump (103) in each of the sub-sumps (102), and a water supply tank (104) spaced apart from the topmost sub-sump (102), the aforementioned Pumps (103) are connected to each other to transport water in the main water storage tank (101) into the water supply tank (104), and the water supply tank (104) can control water output to the water circulation device (20) The left water circulation device (20) is disposed on the left side of the secondary generator (50) and corresponds to the left water delivery device (10), and the right water circulation device (20') Provided on the right side of the secondary generator (50) and corresponding to the right water delivery device (10'); the left water circulation device (20) and the right water circulation device (20'), both of which All include a guiding unit (201) extending from the top to the bottom at an angle to the horizontal plane, a transmission unit (202) disposed at the top end of the guiding unit (201), and a plurality of sliding members disposed on the guiding unit (201) a water receiving tank (203), a non-return unit (204) disposed at one end of the transmission unit (202), and a non-return unit (204) disposed at the other end of the non-return unit (204) and capable of driving each of the water receiving tanks (203) a recovery unit (205), the water receiving tank (203) can receive water output by the water supply tank (104); the water receiving tank (203) of the left water circulation device (20) has a starting position of The top of the guiding unit (201), so when all the water receiving tanks (203) are filled with water, the water receiving tank (203) can start to use gravity, and the top end of the guiding unit (201) is bottomed. Moving at the end, and finally pouring water back into the main storage tank (101) at the bottom end, the recovery unit (205) can discharge all the water after all the water receiving tanks (203) have been discharged. The water receiving tank (203) is brought back to the top end of the guiding unit (201), and the starting position of the water receiving tank (203) of the right water circulating device (20') is the bottom of the guiding unit (201) Different from the left water circulation device (20), the operation mode and the right water circulation device (20') are reversed; the left transmission device (30) is the same as the left water circulation device (20) The other end of the transmission unit (202) is connected to transmit the transmission unit (202) The delivered speed is increased and output; the right shifting device (30') is connected to the other end of the transmission unit (202) of the right water circulation device (20'), and the transmission unit can be 202) The transmitted rotational speed is increased and output; the transmission device (40) includes a transmission shaft (401) and a flexible connector (402), and the transmission shaft (401) is disposed at the Between the left shifting device (30) and the right shifting device (30'), the flexible connector (402) connects the transmission shaft (401) with the auxiliary generator (50) to pass The left water circulation device (20) and the right water circulation device (20') are cyclically operated up and down to drive the auxiliary generator (50) to operate; the secondary generator (50) is a transmission (40) is coupled; the secondary clutch (60) is disposed between the secondary generator (50) and the afterburner flywheel assembly (70), and is selectively connectable to the secondary generator (50) and the afterburner flywheel set (70); the right power flywheel (12) includes a right flywheel body (121), a right power motor corresponding to the right flywheel body (121) ( 122), corresponding The shaft is disposed on a right booster clutch unit (123) between the right flywheel body (121) and the right booster flywheel set (14), and at least one right disposed corresponding to the right power motor (122) a power transmission unit (124); the left power flywheel (13) includes a left flywheel body (131), a left power motor (132) corresponding to the left flywheel body (131), and a corresponding shaft is disposed on a left afterburning clutch unit (133) between the left flywheel body (131) and the left afterpower flywheel assembly (16), and at least one left power transmission unit disposed corresponding to the left power motor (132) (134); the right afterpower flywheel set (14), the left afterpower flywheel set (16), and the afterburner flywheel set (70), all of which include at least one afterburner flywheel body (A), a clutch unit (B) corresponding to the shaft disposed between the afterburner body (A), and at least one transmission unit (C) disposed outside the force flywheel body (A) And corresponding to the clutch unit (D) disposed on one side of the afterburner body (A), the clutch unit (D) can selectively connect the afterburner body (A) to each other and interlock; The right An afterburner wheel set (14), further comprising a right booster motor (141) corresponding to said setting and capable of driving said corresponding afterburner body (A) by said transmission unit (C) And the left afterpower flywheel set (16) further comprising And a left booster motor (161) disposed to drive the corresponding force flywheel body (A) through the transmission unit (C); and the afterburner flywheel set (70) further includes There is an afterburner motor (701) corresponding to the above, and capable of driving the corresponding force flywheel body (A) through the transmission unit (C); the first auxiliary power generation group (21) The sub-generator (50) included is the right power motor (122), the left power motor (132), the right booster motor (141), and the left booster motor ( 161) electrical connection; the second auxiliary power generation group (22) including the sub-generator (50), the pump (103) with the first auxiliary power generation group (21), and The booster motor (701) is electrically connected; the second auxiliary power generation group (22) includes the pump (103) and the booster motor (701) electrically connected to an external power source (200) connection.
更優選的是,所述右加力飛輪組(14)、所述左加力飛輪組(16)及所述加力飛輪組(70),其三者皆還包括有數個環設於所述加力飛輪本體(A)上的配重體(E)。 More preferably, the right afterpower flywheel set (14), the left afterpower flywheel set (16), and the afterburner flywheel set (70), all of which further include a plurality of rings disposed in the The weight body (E) on the flywheel body (A).
更優選的是,所述承水槽(203),其還具有一設於所述承水槽(203)頂端處的入水開口(2031)、一設於所述承水槽(203)低端側處的放水開口(2032)、及一設於所述放水開口(2032)處的排放閘門(2033);所述回收單元(205),其還具有至少一回收馬達(2051)、一止逆裝置(2052)、及至少一連接組件(2053),所述回收馬達(2051)為設於所述引導單元(201)的較高端側、能帶動所述傳動單元(202)轉動,所述止逆裝置(2052)為設於所述回收馬達(2051)和所述傳動單元(202)間,所述連接組件(2053)為設於所述止逆單元(204)與所述止逆裝置(2052)鄰近的所述承水槽(203)連接。 More preferably, the water receiving tank (203) further has a water inlet opening (2031) provided at a top end of the water receiving tank (203), and a water inlet opening (2031) at a lower end side of the water receiving tank (203). a drain opening (2032), and a discharge gate (2033) disposed at the drain opening (2032); the recovery unit (205) further having at least one recovery motor (2051) and a non-return device (2052) And at least one connecting component (2053), wherein the recovery motor (2051) is disposed on a higher end side of the guiding unit (201), and can drive the transmission unit (202) to rotate, the check device ( 2052) is disposed between the recovery motor (2051) and the transmission unit (202), the connection assembly (2053) is disposed adjacent to the non-return unit (204) and the non-return device (2052) The water receiving tank (203) is connected.
更優選的是,所述給水槽(104),其還設有能對所有的所述承水槽(203)給水的導水裝置(1041)。 More preferably, the water supply tank (104) is further provided with a water guiding device (1041) capable of supplying water to all of the water receiving tanks (203).
更優選的是,所述導水裝置(1032),其對應於所有的所述承水槽(203)處,還分別設有一控水單元(1042)。 More preferably, the water guiding device (1032) corresponding to all of the water receiving tanks (203) is further provided with a water control unit (1042).
與現有技術相比,本新型的效果如下所示: Compared with the prior art, the effects of the present invention are as follows:
第一點:本新型中,發電裝置(100)通過主發電裝置(1)及至少一輔助發電裝置(2)所組成,能有效地應用重力與水力來配合發電。 First point: In the present invention, the power generating device (100) is composed of a main power generating device (1) and at least one auxiliary power generating device (2), and can effectively apply gravity and water power to cope with power generation.
第二點:本新型中,利用左右設置的左水輸送裝置(10)、右水輸送裝置(10’)、左水循環裝置(20)、右水循環裝置(20’)、左變速裝置(30)、及右變速裝置(30’),如同引擎一般,往復作動,配合上傳動裝置(40),讓傳動裝置(40)能帶動副發電機(50)運作,對外供電。 Second point: In the present invention, the left water transport device (10), the right water transport device (10'), the left water circulation device (20), the right water circulation device (20'), and the left shift device (30) are provided. And the right shifting device (30'), like the engine, reciprocating and cooperating with the transmission device (40), so that the transmission device (40) can drive the auxiliary generator (50) to operate and supply external power.
第三點:本新型中,水力循環所用的水為循環使用,遇到乾旱季節,同樣能發電,對水資源的需求低。 The third point: In this new type, the water used in the hydraulic cycle is recycled. In the dry season, it can also generate electricity, and the demand for water resources is low.
第四點:本新型中,本新型發電裝置(100),設置地點的限制少,占據的面積較小,系統維護難度低,無地區限制問題,所以無遠距離傳送電力的考量,能實現地域性發電供給。 Fourth point: In the present invention, the novel power generation device (100) has fewer restrictions on installation locations, smaller occupied area, low system maintenance difficulty, and no regional limitation problem, so there is no consideration for transmitting power over long distances, and the area can be realized. Sexual power supply.
1‧‧‧主發電裝置 1‧‧‧Main power generation unit
11‧‧‧主發電機 11‧‧‧Main generator
12‧‧‧右動力飛輪 12‧‧‧ Right Power Flywheel
121‧‧‧右飛輪本體 121‧‧‧Right flywheel body
122‧‧‧右動力馬達 122‧‧‧right power motor
123‧‧‧右加力離合單元 123‧‧‧ right-force clutch unit
124‧‧‧右動力傳動單元 124‧‧‧Right power transmission unit
13‧‧‧左動力飛輪 13‧‧‧Left Power Flywheel
20‧‧‧左水循環裝置 20‧‧‧ Left water circulation device
20’‧‧‧右水循環裝置 20’‧‧‧right water circulation device
201‧‧‧引導單元 201‧‧‧Guide unit
202‧‧‧傳動單元 202‧‧‧Transmission unit
203‧‧‧承水槽 203‧‧‧Sink
2031‧‧‧入水開口 2031‧‧‧ water inlet
2032‧‧‧放水開口 2032‧‧‧Draining opening
2033‧‧‧排放閘門 2033‧‧‧Drain gate
131‧‧‧左飛輪本體 131‧‧‧Left flywheel body
132‧‧‧左動力馬達 132‧‧‧Left Power Motor
133‧‧‧左加力離合單元 133‧‧‧ Left Force Clutch Unit
134‧‧‧左動力傳動單元 134‧‧‧Left Power Transmission Unit
14‧‧‧右加力飛輪組 14‧‧‧ Right-force flywheel
141‧‧‧右加力馬達 141‧‧‧right-force motor
15‧‧‧右主離合器 15‧‧‧Right master clutch
16‧‧‧左加力飛輪組 16‧‧‧Legal Force Flywheel Set
161‧‧‧左加力馬達 161‧‧‧Left-force motor
17‧‧‧左主離合器 17‧‧‧Left master clutch
2‧‧‧輔助發電裝置 2‧‧‧Auxiliary power generation unit
21‧‧‧第一輔助發電組 21‧‧‧First auxiliary power generation unit
22‧‧‧第二輔助發電組 22‧‧‧Second auxiliary power generation unit
10‧‧‧左水輸送裝置 10‧‧‧ Left water conveyor
10’‧‧‧右水輸送裝置 10’‧‧‧right water conveyor
101‧‧‧主儲水槽 101‧‧‧Main storage tank
102‧‧‧副儲水槽 102‧‧‧Sub tank
103‧‧‧抽水泵 103‧‧‧ pump
104‧‧‧給水槽 104‧‧‧Sink
1041‧‧‧導水裝置 1041‧‧‧Water guiding device
1042‧‧‧控水單元 1042‧‧‧Water control unit
204‧‧‧止逆單元 204‧‧‧Fighting unit
205‧‧‧回收單元 205‧‧‧Recycling unit
2051‧‧‧回收馬達 2051‧‧‧Recycling motor
2052‧‧‧止逆裝置 2052‧‧‧Reverse device
2053‧‧‧連接組件 2053‧‧‧Connecting components
30‧‧‧左變速裝置 30‧‧‧left shifting device
30’‧‧‧右變速裝置 30’‧‧‧Right shifting device
40‧‧‧傳動裝置 40‧‧‧Transmission
401‧‧‧傳動軸 401‧‧‧ drive shaft
402‧‧‧撓性連接器 402‧‧‧Flexible connector
50‧‧‧副發電機 50‧‧‧Sub generator
60‧‧‧副離合器 60‧‧‧Sub-clutch
70‧‧‧加力飛輪組 70‧‧‧Heather flywheel
701‧‧‧加力馬達 701‧‧ ‧ afterburner motor
A‧‧‧加力飛輪本體 A‧‧‧Fahrenheit flywheel body
B‧‧‧離合單元 B‧‧‧ clutch unit
C‧‧‧傳動單元 C‧‧‧Transmission unit
D‧‧‧離合單元 D‧‧‧ clutch unit
E‧‧‧配重體 E‧‧‧weight body
100‧‧‧發電裝置 100‧‧‧Power generator
200‧‧‧外部電源 200‧‧‧External power supply
第1圖:本新型的架構示意圖。 Figure 1: Schematic diagram of the new architecture.
第2圖:本新型的架構方塊示意圖。 Figure 2: Schematic diagram of the architecture of the new model.
第3圖:本新型的立體示意圖。 Figure 3: A perspective view of the novel.
第4圖:本新型主發電裝置的立體示意圖。 Fig. 4 is a perspective view of the main power generating device of the present invention.
第5圖:本新型輔助發電裝置的立體示意圖。 Fig. 5 is a perspective view of the novel auxiliary power generating device.
第6圖:本新型主發電裝置與輔助發電裝置中助力裝置的立體分解示意圖。 Fig. 6 is a perspective exploded view of the booster device of the main power generating device and the auxiliary power generating device of the present invention.
第7圖:本新型的架構實施示意圖。 Figure 7: Schematic diagram of the implementation of the new architecture.
以下依據圖面所示的實施例詳細說明如後:如第1圖至第7圖所示,圖中揭示出,為一種水力重力循環發 電裝置,其特徵在於:所述發電裝置(100),其包括有一主發電裝置(1)、以及至少一輔助發電裝置(2);所述主發電裝置(1),其包括有一主發電機(11)、一軸設於所述主發電機(11)右側的右動力飛輪(12)、一軸設於所述主發電機(11)左側的左動力飛輪(13)、一軸設於所述右動力飛輪(12)右側的右加力飛輪組(14)、一軸設於所述右動力飛輪(12)和所述右加力飛輪組(14)間的右主離合器(15)、一軸設於所述左動力飛輪(13)左側的左加力飛輪組(16)、及一軸設於所述左動力飛輪(13)和所述左加力飛輪組(16)間的左主離合器(17);所述輔助發電裝置(2),其包括有至少一第一輔助發電組(21)、及至少一第二輔助發電組(22),所述第一輔助發電組(21)及第二輔助發電組(22)兩者,皆包括有一左水輸送裝置(10)、一右水輸送裝置(10’)、一左水循環裝置(20)、一右水循環裝置(20’)、一左變速裝置(30)、一右變速裝置(30’)、一傳動裝置(40)、一副發電機(50)、一副離合器(60)、及一加力飛輪組(70);所述左水輸送裝置(10),其為設於所述副發電機(50)左側,而所述右水輸送裝置(10’),其為設於所述副發電機(50)右側;前述左水輸送裝置(10)與所述右水輸送裝置(10’),其兩者皆包括有一主儲水槽(101)、數個由所述主儲水槽(101)頂端依序間隔向上而設置的副儲水槽(102)、數個各自設置於所述主儲水槽(101)和各個所述副儲水槽(102)內的抽水泵(103)、及一間隔設於位於最頂端之所述副儲水槽(102)上的給水槽(104),前述抽水泵(103)間相互連接、以將所述主儲水槽(101)內的水輸送至所述給水槽(104)內,前述給水槽(104)能控制水輸出至所述水循環裝置(20)的量;所述左水循環裝置(20),其為設於所述副發電機(50)左側、 並對應於所述左水輸送裝置(10),而所述右水循環裝置(20’),其為設於所述副發電機(50)右側、並對應於所述右水輸送裝置(10’);前述左水循環裝置(20)與所述右水循環裝置(20’),其兩者皆包括有一與水平面呈一角度而由上至下延伸設置的引導單元(201)、一設置於所述引導單元(201)頂端的傳動單元(202)、數個滑動設置於所述引導單元(201)上的承水槽(203)、一設於所述傳動單元(202)一端的止逆單元(204)、及一設於所述止逆單元(204)另一端並能帶動各個所述承水槽(203)的回收單元(205),前述承水槽(203)能承接所述給水槽(104)所輸出的水;所述左水循環裝置(20)的所述承水槽(203),其起始位置為所述引導單元(201)頂端,故當所有所述承水槽(203)皆裝滿水時,所述承水槽(203)便能開始利用重力,而由所述引導單元(201)頂端往底端處移動、最終於底端將水倒回至所述主儲水槽(101)內,所述回收單元(205)能於所有所述承水槽(203)皆放完水後,才將所有所述承水槽(203)帶回至所述引導單元(201)頂端,而所述右水循環裝置(20’)的所述承水槽(203)起始位置為所述引導單元(201)底端,與所述左水循環裝置(20)相異,故運轉模式與所述右水循環裝置(20’)相互顛倒;所述左變速裝置(30),其為與所述左水循環裝置(20)的所述傳動單元(202)另一端連接,能將所述傳動單元(202)所傳遞而來的轉速提高後輸出;所述右變速裝置(30’),其為與所述右水循環裝置(20’)的所述傳動單元(202)另一端連接,能將所述傳動單元(202)所傳遞而來的轉速提高後輸出;所述傳動裝置(40),其包括有一傳動軸(401)、及一撓性連接器(402),所述傳動軸(401)為設於所述左變速裝置(30)與所述右變速裝置 (30’)間,所述撓性連接器(402)為將所述傳動軸(401)與所述副發電機(50)連接,以通過所述左水循環裝置(20)與所述右水循環裝置(20’)一上一下地循環運作,驅動所述副發電機(50)運作;所述副發電機(50),其為與所述傳動裝置(40)連接;所述副離合器(60),其為設於所述副發電機(50)與所述加力飛輪組(70)間,能可選擇性地連接所述副發電機(50)與所述加力飛輪組(70);所述右動力飛輪(12),其包括有一右飛輪本體(121)、對應所述右飛輪本體(121)而設置的一右動力馬達(122)、對應軸設於所述右飛輪本體(121)與所述右加力飛輪組(14)間的一右加力離合單元(123)、及對應所述右動力馬達(122)而設置的至少一右動力傳動單元(124);所述左動力飛輪(13),其包括有一左飛輪本體(131)、對應所述左飛輪本體(131)而設置的一左動力馬達(132)、對應軸設於所述左飛輪本體(131)與所述左加力飛輪組(16)間的一左加力離合單元(133)、及對應所述左動力馬達(132)而設置的至少一左動力傳動單元(134);所述右加力飛輪組(14)、所述左加力飛輪組(16)及所述加力飛輪組(70),其三者皆包括有至少一個以上的加力飛輪本體(A)、對應軸設於所述加力飛輪本體(A)間的一離合單元(B)、對應所述加力飛輪本體(A)而套設於其外的至少一傳動單元(C)、及對應設於所述加力飛輪本體(A)一側的離合單元(D),前述離合單元(D)能可選擇性地讓所述加力飛輪本體(A)相互連接並連動;而所述右加力飛輪組(14),其還包括有對應於所述而設置,並能通過所述傳動單元(C)以帶動對應之所述加力飛輪本體(A)轉動的右加力馬達(141);而所述左加力飛輪組(16),其還包括有對應於所述而設置, 並能通過所述傳動單元(C)以帶動對應之所述加力飛輪本體(A)轉動的左加力馬達(161);而所述加力飛輪組(70),其還包括有對應於所述而設置,並能通過所述傳動單元(C)以帶動對應之所述加力飛輪本體(A)轉動的加力馬達(701);所述第一輔助發電組(21),其包含的所述副發電機(50),為與所述右動力馬達(122)、所述左動力馬達(132)、所述右加力馬達(141)及所述左加力馬達(161)電連接;所述第二輔助發電組(22),其包含的所述副發電機(50),為與所述第一輔助發電組(21)的所述抽水泵(103)、及所述加力馬達(701)電連接;另所述第二輔助發電組(22),其包含的所述抽水泵(103)及所述加力馬達(701)為與外部電源(200)電連接。 The following is a detailed description of the following embodiments according to the drawings: as shown in Figures 1 to 7, the figure reveals that it is a hydraulic gravity cycle. An electric device, characterized in that the power generating device (100) comprises a main power generating device (1) and at least one auxiliary power generating device (2); the main power generating device (1) comprising a main generator (11) a right power flywheel (12) disposed on a right side of the main generator (11), a left power flywheel (13) disposed on a left side of the main generator (11), and an axis disposed on the right a right-forced flywheel set (14) on the right side of the power flywheel (12), a right main clutch (15) disposed between the right-powered flywheel (12) and the right-powered flywheel set (14), and a shaft disposed on a left afterpower flywheel set (16) on the left side of the left power flywheel (13), and a left main clutch (17) disposed between the left power flywheel (13) and the left afterpower flywheel set (16) The auxiliary power generation device (2) includes at least one first auxiliary power generation group (21) and at least one second auxiliary power generation group (22), the first auxiliary power generation group (21) and the second auxiliary The power generation group (22) includes a left water conveying device (10), a right water conveying device (10'), a left water circulation device (20), a right water circulation device (20'), and a left shifting device. (30) a right shifting device (30'), a transmission device (40), a pair of generators (50), a pair of clutches (60), and an afterburner flywheel assembly (70); the left water delivery device (10) Provided on the left side of the secondary generator (50), and the right water delivery device (10') is disposed on the right side of the secondary generator (50); the left water delivery device (10) The right water delivery device (10') includes a main water storage tank (101), and a plurality of secondary water storage tanks (102) disposed at an upper end of the main water storage tank (101). a plurality of pumping pumps (103) respectively disposed in the main water storage tank (101) and each of the sub-storage tanks (102), and a sub-storage tank (102) spaced apart from the topmost a water supply tank (104), wherein the water pump (103) is connected to each other to transport water in the main water storage tank (101) into the water supply tank (104), and the water supply tank (104) can control water output. An amount to the water circulation device (20); the left water circulation device (20) is disposed on the left side of the secondary generator (50) And corresponding to the left water transport device (10), and the right water circulation device (20') is disposed on the right side of the secondary generator (50) and corresponds to the right water transport device (10' The left water circulation device (20) and the right water circulation device (20') both of which include a guiding unit (201) extending from the top to the bottom at an angle to the horizontal plane, and a a transmission unit (202) at the top of the guiding unit (201), a plurality of water receiving grooves (203) slidably disposed on the guiding unit (201), and a non-returning unit (204) disposed at one end of the transmission unit (202) And a recovery unit (205) disposed at the other end of the non-return unit (204) and capable of driving each of the water receiving tanks (203), the water receiving tank (203) capable of receiving the water supply tank (104) The output water; the water receiving tank (203) of the left water circulation device (20) has a starting position of the top end of the guiding unit (201), so when all the water receiving tanks (203) are filled with water The water receiving tank (203) can start to use gravity, and the top end of the guiding unit (201) moves toward the bottom end, and finally the water is poured back to the main water storage at the bottom end. (101), the recovery unit (205) can bring all of the water receiving tanks (203) back to the top of the guiding unit (201) after all the water receiving tanks (203) have discharged water. The starting position of the water receiving tank (203) of the right water circulation device (20') is the bottom end of the guiding unit (201), which is different from the left water circulation device (20), so the operation mode and the The right water circulation device (20') is reversed from each other; the left shifting device (30) is connected to the other end of the transmission unit (202) of the left water circulation device (20), and the transmission unit (202) The transmitted speed is increased and output; the right shifting device (30') is connected to the other end of the transmission unit (202) of the right water circulation device (20'), and the transmission can be The transmission speed of the unit (202) is increased and output; the transmission device (40) includes a transmission shaft (401) and a flexible connector (402), and the transmission shaft (401) is provided The left shifting device (30) and the right shifting device (30'), the flexible connector (402) is connected to the transmission shaft (401) and the sub-generator (50) to circulate through the left water circulation device (20) and the right water The device (20') is cycled up and down to drive the secondary generator (50) to operate; the secondary generator (50) is coupled to the transmission (40); the secondary clutch (60) ), which is disposed between the auxiliary generator (50) and the afterburner flywheel assembly (70), and is capable of selectively connecting the auxiliary generator (50) and the afterburner flywheel assembly (70) The right power flywheel (12) includes a right flywheel body (121), a right power motor (122) corresponding to the right flywheel body (121), and a corresponding shaft disposed on the right flywheel body ( 121) a right-force clutch unit (123) between the right-force flywheel assembly (14) and at least one right power transmission unit (124) disposed corresponding to the right power motor (122); The left power flywheel (13) includes a left flywheel body (131), a left power motor (132) corresponding to the left flywheel body (131), and a corresponding shaft disposed on the left flywheel body (131) The left force a left-forced clutch unit (133) between the wheel sets (16), and at least one left power transmission unit (134) disposed corresponding to the left power motor (132); the right-forced flywheel set (14) The left afterpower flywheel set (16) and the afterburner flywheel set (70), all of which comprise at least one afterburner flywheel body (A), the corresponding shaft is disposed on the afterburner flywheel body a clutch unit (B) between (A), at least one transmission unit (C) disposed outside the force flywheel body (A), and correspondingly disposed on the afterburner body (A) a clutch unit (D) on one side, the clutch unit (D) can selectively connect and couple the force flywheel body (A) to each other; and the right force flywheel set (14) further includes There is a right booster motor (141) corresponding to the above and capable of driving the corresponding force flywheel body (A) through the transmission unit (C); and the left afterpower flywheel set ( 16), which also includes settings corresponding to the said, And passing the transmission unit (C) to drive a left-side force motor (161) corresponding to the rotation of the afterburner flywheel body (A); and the afterburner flywheel assembly (70) further includes corresponding Provided by the transmission unit (C) to drive the corresponding afterburner body (A) to rotate the afterburner motor (701); the first auxiliary power generation group (21), which comprises The auxiliary generator (50) is electrically connected to the right power motor (122), the left power motor (132), the right booster motor (141), and the left booster motor (161) Connected; the second auxiliary power generation group (22) includes the secondary generator (50), the pump (103) and the add-on with the first auxiliary power generation group (21) The force motor (701) is electrically connected; the second auxiliary power generation group (22) includes the pump (103) and the afterburner motor (701) electrically connected to the external power source (200).
其中,通過主發電裝置(1)、以及至少一輔助發電裝置(2)的配合,組成本新型發電裝置(100),能有效地應用重力、水力來發電,而且水力循環所用的水為循環的,對水資源的需求低,遇到乾旱季節,樣能發電。 Wherein, the main power generating device (1) and the at least one auxiliary power generating device (2) are combined to form the novel power generating device (100), which can effectively apply gravity and water to generate electricity, and the water used for the hydraulic cycle is cyclic. The demand for water resources is low, and in the dry season, the sample can generate electricity.
其次,本新型發電裝置(100)中,所應用的左水輸送裝置(10)、右水輸送裝置(10’)、左水循環裝置(20)及右水循環裝置(20’)的配合,能安裝應用於不同傾斜角度的表面上,以妥善地應用重力,將位能轉為電能,有效率地發電,並一舉提昇應用範圍,如山坡、懸崖、峭壁、大樓等處都能設置應用。 Next, in the novel power generating device (100), the left water transport device (10), the right water transport device (10'), the left water circulation device (20), and the right water circulation device (20') can be installed. It can be applied to surfaces with different inclination angles to properly apply gravity, convert potential energy into electric energy, generate electricity efficiently, and improve application range, such as hillsides, cliffs, cliffs, buildings, etc.
再者,本新型發電裝置(100),占據面積不大,系統的維護不困難,更不用擔心遠距離傳送電力的問題,地區限制不大。 Furthermore, the novel power generation device (100) does not occupy a large area, and the maintenance of the system is not difficult, and there is no need to worry about the problem of transmitting power over a long distance, and the regional restrictions are not large.
另一方面,左水輸送裝置(10)、右水輸送裝置(10’)、左水循環裝置(20)、右水循環裝置(20’)、左變速裝置(30)、右變速裝置(30’)、及傳動裝置(40)的配合,能讓傳動軸(401)持續地運轉,藉以驅動副發電機(50)發電。 On the other hand, the left water transport device (10), the right water transport device (10'), the left water circulation device (20), the right water circulation device (20'), the left shift device (30), and the right shift device (30') And the cooperation of the transmission device (40) enables the drive shaft (401) to continuously operate to drive the auxiliary generator (50) to generate electricity.
請參閱第6圖,所述右加力飛輪組(14)、所述左加力飛輪組(16)及所述加力飛輪組(70),其三者皆還包括有數個環設於所述加力飛輪本體(A)上的配重體(E)。 Please refer to FIG. 6 , the right afterpower flywheel set (14), the left afterpower flywheel set (16) and the afterburner flywheel set (70), all of which also include a plurality of rings disposed therein. The weight body (E) on the afterburner body (A).
其中,通過配重體(E)的設置,讓右加力飛輪組(14)、左加力飛輪組(16)及加力飛輪組(70),能有效地輸出輔助轉動力,以提高發電效率。 Among them, by the arrangement of the weight body (E), the right force flywheel group (14), the left force flywheel group (16) and the afterburner flywheel group (70) can effectively output the auxiliary rotational force to improve power generation. effectiveness.
請參閱第5圖,所述承水槽(203),其還具有一設於所述承水槽(203)頂端處的入水開口(2031)、一設於所述承水槽(203)低端側處的放水開口(2032)、及一設於所述放水開口(2032)處的排放閘門(2033)。 Referring to FIG. 5, the water receiving tank (203) further has a water inlet opening (2031) disposed at a top end of the water receiving tank (203), and a water inlet opening (2031) at a lower end side of the water receiving tank (203). a drain opening (2032) and a drain gate (2033) disposed at the drain opening (2032).
其中,通過入水開口(2031)的設置,能便於準確承水;通過放水開口(2032)的設置,能便於快速放水;通過排放閘門(2033)的設置,能便精確控制放水時間。 Among them, the setting of the water inlet opening (2031) can facilitate accurate water bearing; the setting of the water discharge opening (2032) can facilitate rapid water discharge; and the discharge gate (2033) can accurately control the water discharge time.
請參閱第5圖,所述回收單元(205),其還具有至少一回收馬達(2051)、一止逆裝置(2052)、及至少一連接組件(2053),所述回收馬達(2051)為設於所述引導單元(201)的較高端側、能帶動所述傳動單元(202)轉動,所述止逆裝置(2052)為設於所述回收馬達(2051)和所述傳動單元(202)間,所述連接組件(2053)為設於所述止逆單元(204)與所述止逆裝置(2052)鄰近的所述承水槽(203)連接。 Referring to FIG. 5, the recovery unit (205) further has at least one recovery motor (2051), a non-return device (2052), and at least one connection assembly (2053). The recovery motor (2051) is Provided on a higher end side of the guiding unit (201), capable of driving the transmission unit (202) to rotate, the non-return device (2052) being disposed on the recovery motor (2051) and the transmission unit (202) The connection assembly (2053) is connected to the water receiving tank (203) disposed adjacent to the non-return device (2052).
其中,通過回收馬達(2051)的設置,能讓承水槽(203)順利地回到高處;通過止逆裝置(2052)的設置,能避免承水槽(203)往底端移動時,導致回收馬達(2051)的反轉;通過連接組件(2053)的設置,能讓傳動單元 (202)順利地連接承水槽(203),而連接組件(2053)較優的實施為纜繩。 Among them, the setting of the recovery motor (2051) enables the water receiving tank (203) to smoothly return to the high position; by the setting of the non-return device (2052), the recovery of the water receiving tank (203) to the bottom end can be avoided, resulting in recycling. Reverse rotation of the motor (2051); the transmission unit can be made by the connection of the connection assembly (2053) (202) The water receiving tank (203) is smoothly connected, and the connecting component (2053) is preferably implemented as a cable.
請參閱第5圖,所述給水槽(104),其還設有能對所有的所述承水槽(203)給水的導水裝置(1041)。 Referring to Fig. 5, the water supply tank (104) is further provided with a water guiding device (1041) capable of supplying water to all of the water receiving tanks (203).
其中,通過此種設置方式,讓給水槽(104)內的水能順利輸出至所有承水槽(203)處,讓所有承水槽(203)都能被水所裝滿。 In this way, the water in the water supply tank (104) can be smoothly output to all the water receiving tanks (203), so that all the water receiving tanks (203) can be filled with water.
請參閱第5圖,所述導水裝置(1032),其對應於所有的所述承水槽(203)處,還分別設有一控水單元(1042)。 Referring to FIG. 5, the water guiding device (1032) corresponding to all of the water receiving tanks (203) is further provided with a water control unit (1042).
其中,通過控水單元(1042),能解決因為重力,而讓水流速不易控制的問題,有效控制導水裝置(1041)的出水量用,針對所對應的承水槽(203),進行有效率的輸水,不用擔心會有水溢流及裝不滿的問題。 Among them, the water control unit (1042) can solve the problem that the water flow rate is difficult to control due to gravity, effectively control the water discharge amount of the water guiding device (1041), and efficiently perform the corresponding water receiving tank (203). Don't worry about water overflow and dissatisfaction.
以上依據圖式所示的實施例詳細說明本新型的構造、特徵及作用效果;惟以上所述僅為本新型之較佳實施例,但本新型不以圖面所示限定實施範圍,因此舉凡與本新型意旨相符的修飾性變化,只要在均等效果的範圍內都應涵屬於本新型專利範圍內。 The structure, features and effects of the present invention are described in detail above with reference to the embodiments shown in the drawings. However, the above description is only a preferred embodiment of the present invention, but the present invention does not limit the scope of implementation as shown in the drawings. Modification changes consistent with the meaning of the present invention are intended to fall within the scope of the present invention as long as they are within the scope of equal effect.
1‧‧‧主發電裝置 1‧‧‧Main power generation unit
11‧‧‧主發電機 11‧‧‧Main generator
12‧‧‧右動力飛輪 12‧‧‧ Right Power Flywheel
13‧‧‧左動力飛輪 13‧‧‧Left Power Flywheel
14‧‧‧右加力飛輪組 14‧‧‧ Right-force flywheel
15‧‧‧右主離合器 15‧‧‧Right master clutch
16‧‧‧左加力飛輪組 16‧‧‧Legal Force Flywheel Set
17‧‧‧左主離合器 17‧‧‧Left master clutch
2‧‧‧輔助發電裝置 2‧‧‧Auxiliary power generation unit
21‧‧‧第一輔助發電組 21‧‧‧First auxiliary power generation unit
22‧‧‧第二輔助發電組 22‧‧‧Second auxiliary power generation unit
10‧‧‧左水輸送裝置 10‧‧‧ Left water conveyor
10’‧‧‧右水輸送裝置 10’‧‧‧right water conveyor
20‧‧‧左水循環裝置 20‧‧‧ Left water circulation device
20’‧‧‧右水循環裝置 20’‧‧‧right water circulation device
30‧‧‧左變速裝置 30‧‧‧left shifting device
30’‧‧‧右變速裝置 30’‧‧‧Right shifting device
40‧‧‧傳動裝置 40‧‧‧Transmission
50‧‧‧副發電機 50‧‧‧Sub generator
60‧‧‧副離合器 60‧‧‧Sub-clutch
70‧‧‧加力飛輪組 70‧‧‧Heather flywheel
100‧‧‧發電裝置 100‧‧‧Power generator
200‧‧‧外部電源 200‧‧‧External power supply
Claims (5)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106203635U TWM546995U (en) | 2017-03-15 | 2017-03-15 | Hydraulic power gravity circulation power generation device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106203635U TWM546995U (en) | 2017-03-15 | 2017-03-15 | Hydraulic power gravity circulation power generation device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| TWM546995U true TWM546995U (en) | 2017-08-11 |
Family
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW106203635U TWM546995U (en) | 2017-03-15 | 2017-03-15 | Hydraulic power gravity circulation power generation device |
Country Status (1)
| Country | Link |
|---|---|
| TW (1) | TWM546995U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI714375B (en) * | 2019-12-02 | 2020-12-21 | 浤倡國際能源有限公司 | System and method for providing dynamic force |
-
2017
- 2017-03-15 TW TW106203635U patent/TWM546995U/en not_active IP Right Cessation
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI714375B (en) * | 2019-12-02 | 2020-12-21 | 浤倡國際能源有限公司 | System and method for providing dynamic force |
| US11616415B2 (en) | 2019-12-02 | 2023-03-28 | Hung Chang International Energy Co., Ltd. | System and method for providing dynamic force |
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