CN110863938A - 波浪发电系统 - Google Patents
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Abstract
一种波浪发电系统,包含浮体装置,以及至少一个发电设备。所述浮体装置包括能被波浪带动而上下移动的船只,以及沿所述船只的长度方向延伸并设置在所述船只底部外侧的补强梁。所述至少一个发电设备包括发电装置及摇杆装置。所述摇杆装置具有设置在所述船只上的连接单元,以及两相反端分别枢接所述发电装置与连接单元的摇杆。所述连接单元具有设置于所述船只上并枢接所述摇杆的缆绳座、套设于所述船只且穿设于所述补强梁并以两相反端分别连接所述缆绳座的两相反端的缆绳,以及设置于所述补强梁及所述缆绳间的垫条。
Description
技术领域
本发明涉及一种水力发电装置,特别是涉及一种能利用波浪发电的波浪发电系统。
背景技术
参阅图1、2,公开第201704633号专利案提供了一种波浪发电系统,适用于设置在一水岸及其邻近的一水域,并能利用该水域的波浪发电。该波浪发电系统包含一个设置在该水岸上的摇杆装置11、一个设置在该水岸上并位于该摇杆装置11的近岸侧且枢接该摇杆装置11的其中一端的液压装置12、一个设置在该水域并枢接该摇杆装置11的另外一端的浮块13、一个设置在该水岸并位于该液压装置12近岸侧且能被该液压装置12驱动的升降装置14、一个设置在该水岸并位于该升降装置14近岸侧的循环发电装置15,以及一个能在该升降装置14与该循环发电装置15间移动的移动媒介16。
当波浪带动该浮块13往上移动时,该浮块13能带动该摇杆装置11枢摆,并挤压该液压装置12的该液体,通过该液体驱动该升降装置14带动该移动媒介16往上移动,并使该移动媒介16移动至该循环发电装置15。位于该循环发电装置15中的该移动媒介16能在重力作用下驱动该循环发电装置15作动并产生电力。当该浮块13下降而不再挤压该液压装置12时,该移动媒介16则能再次移动至该升降装置14中,以利下次发电循环进行。
此种现有的波浪发电系统,虽然能够利用波浪发电,但总体来说机构较为复杂,除了发电成本较高外,组装维修也较不方便。该浮块13的体积太小,发电效率不高,如要建造符合经济发电效率的浮块13又需要耗费很大的成本。前述种种问题,均有待改善。
发明内容
本发明的目的,在于提供一种能够克服先前技术的至少一个缺点的波浪发电系统。
本发明波浪发电系统,适用于设置在彼此邻接的水岸及能产生波浪的水域,并包含浮体装置,以及至少一个发电设备,所述至少一个发电设备包括设置在所述水岸上的发电装置,以及连接于所述浮体装置与所述发电装置间的摇杆装置,所述浮体装置包括能被波浪带动而上下移动的船只,以及沿所述船只的长度方向延伸并设置在所述船只底部外侧的补强梁,所述摇杆装置具有设置在所述水岸的杆座、设置在所述船只上的连接单元,以及枢接所述杆座且两相反端分别枢接所述发电装置与连接单元的摇杆,所述连接单元具有设置于所述船只上并枢接所述摇杆的缆绳座、套设于所述船只且穿设于所述补强梁并以两相反端分别连接所述缆绳座的两相反端的缆绳,以及设置于所述补强梁及所述缆绳间的垫条,所述摇杆能被上下移动的所述船只及所述连接单元驱动而枢摆,传动所述发电装置发电。
本发明所述的波浪发电系统,所述浮体装置还包括至少一块设置于所述补强梁及所述船只间的钢板。
本发明所述的波浪发电系统,所述浮体装置还包括设置于所述补强梁及所述至少一块钢板间的垫片。
本发明所述的波浪发电系统,所述补强梁具有适配所述船只底部曲线地弯曲的弯曲段、间隔地位于所述弯曲段下方的水平段,以及上下延伸连接于所述弯曲段与水平段间的延伸段。
本发明所述的波浪发电系统,所述连接单元还具有至少一个设置在所述船只及所述缆绳座间的波浪顶升缓冲组,所述至少一个波浪顶升缓冲组具有固设于所述缆绳座的固定板、装设于所述船只上的组装板、间隔地位于所述组装板上方间隔板、两个分别组装于所述固定板及所述间隔板上的万向接头,以及组接于所述万向接头间的阻尼器。
本发明所述的波浪发电系统,所述组装板具有横向延伸的横板部,以及横剖面呈倒U形且套盖于所述船只的套板部。
本发明所述的波浪发电系统,包含多个所述的发电设备,所述发电设备沿所述水岸延伸的水岸方向间隔设置。
本发明所述的波浪发电系统,每一发电设备的所述发电装置包括设置在所述水岸上的转轮单元、枢接所述转轮单元及对应的所述摇杆的曲柄,以及能被所述转轮单元带动而发电的发电单元,所述船只能被波浪带动而上下移动并带动每一发电设备的所述摇杆枢摆,进而驱动每一曲柄带动每一转轮单元作动,传动对应的所述发电单元发电。
该波浪发电系统的功效在于:以现有的船只取代以往的浮块,能产生符合经济效益的发电效率,该补强梁及该垫条则能提高该船只的强度,使该船只能耐受波浪的拍打侵袭,而能取代以往的浮块。
附图说明
图1是一个局部剖切且不完整的剖视图,说明一个现有的波浪发电系统的其中一个运作状态;
图2是一个类似图1的剖视图,说明现有的该波浪发电系统的另外一个运作状态;
图3是一个局部剖切且不完整的剖视图,说明本发明波浪发电系统的一个实施例处于一个水面位置;
图4是一个俯视图,说明该实施例;
图5是一个局部剖切且不完整的剖视图,放大说明该实施例的一部分;及
图6是一个类似图3的剖视图,说明该实施例处于一个高点位置。
具体实施方式
参阅图3至5,本发明波浪发电系统的一个实施例,适用于设置在彼此邻接的一水岸21及一水域22。该水岸21沿一水岸方向D1延伸。该水岸21在本实施例中为码头,但在本发明的其他实施方式中也能为海岸。该水域22则为能掀起波浪的海洋。定义波浪的前进与后退方向为左右方向D2。
该波浪发电系统包含一个设置于该水域22的浮体装置3,以及多个连接该浮体装置3的发电设备4。
该浮体装置3包括一艘船只31、一根沿该船只31的长度方向D3延伸并组装于该船只31底部外侧的补强梁32、一块设置于该补强梁32及该船只31底部间的垫片33,以及数块沿该长度方向D3间隔排列并设置于该补强梁32及该垫片33间的钢板34。
该船只31在本实施例中为废弃或退役的船只31,不过在实施上也能为新的船只31。该船只31具有一个沿宽度方向D4剖切的剖面概呈U形的船体311,以及一个设置于该船体311的甲板312。该船体311具有两左右间隔且高于该甲板312的顶缘313。
该补强梁32沿宽度方向D4剖切的剖面概呈I形,并具有一个适配该船体311底部曲线地弯曲的弯曲段321、一个间隔地位于该弯曲段321下方且水平横向延伸的水平段322,以及一个上下延伸连接于该弯曲段321与水平段322间的延伸段323。该垫片33沿该船只31的长度方向D3延伸,且宽度大致上适配该弯曲段321的宽度。
在本实施例中,所述发电设备4的数量为两个,且分别连接该船只31的船首与船尾,但在本发明的其他实施方式中,本发明也能仅包含一个连接该船只31中间部位的所述发电设备4,或者包含数量更多且彼此沿着该船只31的长度方向D3间隔排列的所述发电设备4。
每一发电设备4包含一个设置在水岸21上的发电装置5,以及一个连接于该发电装置5及该浮体装置3间的摇杆装置6。
每一发电装置5包括一个设置在该水岸21上的转轮单元51、一个枢接该转轮单元51的曲柄52,以及一个能被该转轮单元51带动而发电的发电单元53。
每一转轮单元51具有一个设置于该水岸21并位于该发电单元53与该摇杆装置6间的轮座511,以及一个能转动地设置于该轮座511上的转轮512。每一曲柄52的其中一端枢接该转轮512偏离轴心的部位,另外一端则枢接该摇杆装置6。每一发电单元53具有一个设置在该水岸21上并具有一根转子531的发电机532、一个能带动该转子531转动且轮外径小于该转轮512的外径的传动轮组533,以及一条链接于该传动轮组533及该转轮512间以供该转轮512带动该传动轮组533的链条534。
每一摇杆装置6包括一个设置于该水岸21并位于该转轮单元51及该浮体装置3间的杆座61、一根枢接该杆座61的摇杆62,以及一个连接于该摇杆62及浮体装置3间的连接单元63。
每一杆座61能上下升缩,而能带动该摇杆62上升或下降,以在潮汐变化时能调整该摇杆62的高度位置,以期取得最佳的发电效果。
每一摇杆62为能弯曲变形而能适应潮差的弹性杆件,并具有彼此相反的一个第一端部621与一个第二端部622,以及一个位于该第一端部621与该第二端部622间并枢接该杆座61的枢接杆部623。每一第一端部621枢接各自的曲柄52的该另外一端。每一第二端部622枢接各自的连接单元63。
每一连接单元63具有一个枢接该第二端部622并设置于该浮体装置3的该船只31上的缆绳座64、一条穿设于该补强梁32的该延伸段323且两相反端分别连接该缆绳座64的两相反端的缆绳65、一条设置于该补强梁32及该缆绳65间的垫条66,以及两个沿该船只31的宽度方向D4间隔地设置于该船只31的该甲板312及该缆绳座64间的波浪顶升缓冲组67。每一缆绳座64具有一根沿该船体311的宽度方向D4延伸地横架于该船体311上的横柱641,以及一根由该横柱641往上延伸并枢接该摇杆62的该第二端部622的枢接柱642。
每一波浪顶升缓冲组67具有一个固设于该缆绳座64该横柱641底端的固定板671、一个装设于该船体311上的组装板672、一个间隔地位于该组装板672上方的间隔板673、两个分别组装于该固定板671底端及该间隔板673顶端的万向接头674,以及一个组接于所述万向接头674间的阻尼器675。每一组装板672具有一个与该甲板312间隔地横向延伸的横板部676,以及一个横剖面呈倒U形并套盖于船体311的其中一顶缘313上的套板部677。
参阅图3、5、6,该浮体装置3的该船只31,能被该水域22形成的波浪带动而上下移动,并在一个如图3所示的水面位置及一个如图6所示的高点位置间变换。
在该低点位置,该水域22的水面大致与海平面相当,每一摇杆装置6的该摇杆62的该第二端部622受该船只31的影响而低于对应的该第一端部621,使每一摇杆62于图面中呈现左高右低的状态。
当波浪涌来,该船只31将被波浪推升而来到该高点位置。在该高点位置,该水域22的水面高于该海平面,该船只31通过甲板312顶推所述波浪顶升缓冲组67,再通过所述波浪顶升缓冲组67及对应的该缆绳座64顶推对应的该摇杆62,而使每一摇杆62在图面中呈现对应的该第二端部622高于对应的该第一端部621的左低右高状态。
该船只31在不断涌入的波浪作用下,将会带动每一摇杆62的该第二端部622,使每一摇杆62以各自的该枢接杆部623为枢摆中心枢摆,进而通过对应的该第一端部621驱动对应该曲柄52带动该转轮单元51的该转轮512转动,并进一步传动对应的该传动轮组533带动对应的该发电机532发电。
该补强梁32能防护该船只31,避免该船只31在波浪的侵袭下断裂。该垫片33能解决该补强梁32与该船只31刚性材料不匹配问题。每一钢板34能保护该船只31,避免该船体311受缆绳65的围束力压迫而产生线状的凹陷变形。每一钢板34沿该长度方向D3延伸的宽度能为对应的该缆绳65的绳宽的3~8倍。所述波浪顶升缓冲组67能于船只31左右摇摆时提供阻尼,而使整体运作稳定。
在本发明的其他实施方式中,该波浪发电系统也能包含多个所述的浮体装置3,且能为每一浮体装置3搭配一个所述的发电设备4的实施方式,也能为每一浮体装置3搭配多个所述发电设备4的实施方式。
综上所述,本发明波浪发电系统的功效在于:以现有的船只31取代以往的浮块,能产生符合经济效益的发电效率,该补强梁32及该垫条66则能提高该船只31的强度,故该船只31能耐受波浪的拍打侵袭,而能取代以往的浮块。
以上所述者,仅为本发明的具体实施方式而已,不能以此限定本发明的权利要求范围,且依本发明权利要求书及说明书的记载内容所作的等效变化方式,也应被本发明权利要求范围所涵盖。
Claims (8)
1.一种波浪发电系统,适用于设置在彼此邻接的水岸及能产生波浪的水域,并包含浮体装置,以及至少一个发电设备,所述至少一个发电设备包括设置在所述水岸上的发电装置,以及连接于所述浮体装置与所述发电装置间的摇杆装置,其特征在于:所述浮体装置包括能被波浪带动而上下移动的船只,以及沿所述船只的长度方向延伸并设置在所述船只底部外侧的补强梁,所述摇杆装置具有设置在所述水岸的杆座、设置在所述船只上的连接单元,以及枢接所述杆座且两相反端分别枢接所述发电装置与连接单元的摇杆,所述连接单元具有设置于所述船只上并枢接所述摇杆的缆绳座、套设于所述船只且穿设于所述补强梁并以两相反端分别连接所述缆绳座的两相反端的缆绳,以及设置于所述补强梁及所述缆绳间的垫条,所述摇杆能被上下移动的所述船只及所述连接单元驱动而枢摆,传动所述发电装置发电。
2.根据权利要求1所述的波浪发电系统,其特征在于:所述浮体装置还包括至少一块设置于所述补强梁及所述船只间的钢板。
3.根据权利要求2所述的波浪发电系统,其特征在于:所述浮体装置还包括设置于所述补强梁及所述至少一块钢板间的垫片。
4.根据权利要求1所述的波浪发电系统,其特征在于:所述补强梁具有适配所述船只底部曲线地弯曲的弯曲段、间隔地位于所述弯曲段下方的水平段,以及上下延伸连接于所述弯曲段与水平段间的延伸段。
5.根据权利要求1所述的波浪发电系统,其特征在于:所述连接单元还具有至少一个设置在所述船只及所述缆绳座间的波浪顶升缓冲组,所述至少一个波浪顶升缓冲组具有固设于所述缆绳座的固定板、装设于所述船只上的组装板、间隔地位于所述组装板上方间隔板、两个分别组装于所述固定板及所述间隔板上的万向接头,以及组接于所述万向接头间的阻尼器。
6.根据权利要求5所述的波浪发电系统,其特征在于:所述组装板具有横向延伸的横板部,以及横剖面呈倒U形且套盖于所述船只的套板部。
7.根据权利要求1至6中任一项所述的波浪发电系统,其特征在于:包含多个所述的发电设备,所述发电设备沿所述水岸延伸的水岸方向间隔设置。
8.根据权利要求7所述的波浪发电系统,其特征在于:每一发电设备的所述发电装置包括设置在所述水岸上的转轮单元、枢接所述转轮单元及对应的所述摇杆的曲柄,以及能被所述转轮单元带动而发电的发电单元,所述船只能被波浪带动而上下移动并带动每一发电设备的所述摇杆枢摆,进而驱动每一曲柄带动每一转轮单元作动,传动对应的所述发电单元发电。
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| TW107129967A TW202009367A (zh) | 2018-08-28 | 2018-08-28 | 波浪發電系統 |
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