CN107489587A - 合口式水浪发电机 - Google Patents
合口式水浪发电机 Download PDFInfo
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- F03B13/22—Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy using wave energy using the flow of water resulting from wave movements to drive a motor or turbine
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- F03D9/25—Wind motors characterised by the driven apparatus the apparatus being an electrical generator
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Abstract
本发明公开了一种包括发电机组(1)和合口部分(2)组成的合口式水浪发电机,发电机组(1)与现在水力发电机相同,合口部分(2)中的合口(2‑1)的形状为,前面进水面积大,而后面出水口面积比较小;当水从合口(2‑1)进入直口(2‑3)时,由于进入合口(2‑1)的面积大,虽然水流速度不是很快,进入的流量大,并与从直口(2‑3)的流量相等,而直口(2‑3)面积小,所以,进入直口(2‑3)水的流速快。将发电机(1‑1)的转动叶片安在直口(2‑3)的出口处,快速流出的水冲击叶片,带动叶片转动。采用这样方法,可以将低速流动的水,通过大面积收集后,获得能量。它不仅适合大海,也适合江河和水塘等地方使用。
Description
一.技术领域:
本发明涉及用于水中波浪发电的发电机。
二.背景技术:
已有的用波浪电发的技术,是采用浮力筒边上安转动叶片,让波浪冲击叶片下部,叶片在波浪冲击下转动,带动边上的发电机转动发电。由于波浪会随着外部天气变化发生变化,有时高,有时低,当波浪不仅打在叶片下面,同时也打在上方,这样,叶片所获得转动力矩变小,吸收能量而变小,发电效率低,只能吸收小波浪的能量。
三.发明目的:
本发明的目的就是提供一种吸收波浪能量高的合口式水浪发电机。
四.工作原理:
为了达到以上目的,本发明的合口式水浪发电机的工作原理为:前面截面面积大,后面截面面积小的合口,将大量低速的波浪收集到出口很小的尾部;由于出口很小,所以,流速很快,用出口的高速的水去冲击发电机的叶片,发电机将获得很大的能量。根据以上工作原理,其技术方案为:合口与支架相联,支架固定在地面,合口出水口接上直口,发电机安在直口上,由直口流出的高速水冲击叶片,叶片带动发电机发电。
五.本发明具有优点:
采用以上发明后,可以将大量的海水波浪能收集起来发电,也可以将其它水面的水波浪能收集起来发电。由于海水波浪无需成本,同时,所具有的面积巨大,海水波浪持续时间长,发电机可持续发电。本发明不仅解决了发电问题,同时,也对发电时的安全问题加以解决。由于本发明直接采用水波发电,因此,没有环境污染。
六.附图说明:
附图1为本发明的合口式水浪发电机第1实施例外形图。
附图2为本发明的合口式水浪发电机第1实施例附图1的向视图。
附图3为本发明的合口式水浪发电机第1实施例附局部结构图。
附图4为本发明的合口式水浪发电机第2实施例局部结构图。
附图5为本发明的合口式水浪发电机第2实施例局部结构图。
附图6为本发明的合口式水浪发电机第3实施例局部结构图。
附图7为本发明的合口式水浪发电机第4实施例局部结构图。
附图8为本发明的合口式水浪发电机第4实施例局部结构图。
附图9为本发明的合口式水浪发电机第4实施例局部结构图。
附图10为本发明的合口式水浪发电机第5实施例零件图。
附图11为本发明的合口式水浪发电机第5实施例零件图。
七.实施例:
在附图1至附图3所示的第1实施例中,本发明的合口式水浪发电机包括发电机组(1)和合口部分(2),发电机组(1)包括发电机(1-1)、联接器(1-2)、叶片(1-3)、轴(1-4)、轴承座(1-5)和螺母(1-6);合口部分(2)包括合口(2-1)、支架(2-2)、直口(2-3)和螺栓(2-4)。支架(2-2)一端安在水里,另一端支承在合口(2-1)的支承部位和直口(2-3)的支承部位,合口(2-1)与直口(2-3)为一体,合口(2-1)入口部分面积大,而与直口(2-3)相联的出口面积小,直口(2-3)与合口(2-1)相联处在水中,尾部伸出水面;P为合口(2-1)进入直口(2-3)的孔。直口(2-3)尾部埋有螺栓(2-4),发电机(1-1)安在螺栓(2-4)上,上好螺母(1-6);联接器(1-2)将发电机(1-1)与轴(1-4)相联,轴(1-4)穿过二个轴承座(1-5),轴(1-4)端部的花键位置,上有叶片(1-3),然后由螺母(1-6)安在直口(2-3),叶片(1-3)放在直口(2-3)出口位置。当水从合口(2-1)进口端进入合口(2-1)后,再从尾部进入直口(2-3),从直口(2-3)尾部出来。在此过程中,由于合口(2-1)入口进水面积比较大,中间为三面收小形,所以,合口(2-1)尾部出口面积比较小;当比较慢速的水进入合口(2-1)进水口,由于进水口面积大,所以,在流量一定情况下,合口(2-1)尾部出口面积比较少,合口(2-1)尾部出口水的流速一定非常大。所以进入直口(2-3)的速度也非常大,这些快速流动的水,冲击叶片(1-3),叶片(1-3)转动带动发电机(1-1)发电。冲击叶片(1-3)的水流出。
在附图1至附图5所示的第2实施例中,它与第1实施例不同之处在于:在合口(2-1)的尾部多接了一根直口(2-3),并在该直口(2-3)上安有阀门部分(3),阀门部发(3)包括主门(3-1)、门架(3-2)、油缸(3-3)、螺栓(3-4)和螺母(3-5);门架(3-2)焊接在主门(3-1)上,螺栓(3-4)埋入直口(2-3)内,油缸(3-3)一端由螺栓(3-4)和螺母(3-5)固定,另一端由螺栓(3-4)和螺母(3-5)固定在门架(3-2)上,主门(3-1)放在直口(2-3)上面留下的间隙中。在外部水的流速比较大时,有一定压力的水进入直口(2-3),发电机(1-1)发电量快超过最大值,发电机(1-1)将被损坏的时,这时,可以起动油缸(3-3),顶起门架(3-2),主门(3-1)在门架(3-2)带动下,向上行走,在直口(2-3)中的水从该直口(2-3)中流出,另一直口(2-3)的水压减轻,从而达到发电机(1-1)在外面水流很朋时,正常发电。
在附图1至附图6所示的第3实施例中,它与第1和第2实施例不同之处在于:在合口(2-1)进水口,有立柱(2-6),同时,合口(2-1)上方开有槽,门架(3-2)和主门(3-1)放入槽中,油缸(3-3)安在合口(2-1)上方。当进入合口(2-1)的水流速度很快时,为了不使发电机(1-1)因过载损坏,可通过油缸(3-3)将主门(3-1)升起,从而使进入合口(2-1)的水面积减少。从而达到进入直口(2-3)水的速度不会过快,保护发电机(1-1)不被损坏。
在附图1和附图3以及附图7至附图9所示第4实施例中,它与第1实施例不同之处在于:在合口(2-1)进入口有立柱(2-6),同时,增加了去渣部分(4),去渣部分(4)包括挡网(4-1)、挡杆(4-2),小车(4-3)和轨道(4-4);挡网(4-1)与合口(2-1)和立柱(2-6)同时浇铸在一起,轨道(4-4)安在合口(2-1)上面,小车(4-3)在轨道(4-4)上行驶,扫杆(4-2)焊接在小车(4-3)上。挡网(4-1)前方拦有许多杂物时,开动小车(4-3),小车(4-3)行驶时,扫杆(4-2)在挡网(4-1)之间移动,将杂物推出挡网(4-1),让水快速流入;同时,也可以将杂物隔离,防止大形东西进入合口(2-1)后,将发电机(1-1)卡死,造成设备损坏。
在附图1至附图3以及附图10至附图11所示的第5个实施例中,它与前面实施例不同之处在于:在直口(2-3)后面加了三块板,即加板(2-5),加板(2-5)包括上面板(2-5-1),下面板(2-5-2)和中间板(2-5-3)。同时,也增加了螺栓(2-6),上面板(2-5-1)和下面板(2-5-3)结构相同,螺栓(2-6)安在直口(2-3)内,当叶片(1-3)安装到直口(2-3)出口位置后,将上面板(2-5-1)、下面板(2-5-2)和中间板(2-5-1)由螺栓(2-6)和螺母(2-4)固定在直口(2-3)上,上面板(2-5-1)和中间板(2-5-3)之间,下面板(2-5-2)和中间板(2-5-3)之间螺栓(2-6)和螺母(2-4)固定。这时,叶片(1-3)被加板(2-5)围住,冲击水被因在该区域内,叶片(1-3)获得能量更多。
本发明不仅只限以上几种形式,当直口(2-3)不是向上,而是水平或向下进;当第2实施例中,没有发电的直口(2-3),而另一直口(2-3)后面可以接上水管,让水流向高处时;当第2实施例中,发电机(1-1)前方也安有阀门部分(3),而另一直口(2-3)后面接有水管,该水管通向高处的储水池,在不需要发电时,关闭发电机(1-1)前方的主门(3-1),同时,打开另一直口(2-3)上的主门(3-1),这样,发电机(1-1)不发电,另一直口(2-3)后的水管内的水压增加,水被流进储水池;当合口(2-1)截面为其它形状时;当没有直口(2-3),而合口(2-1)出水口比进水口小,发电机组(1)安在合口(2-1)上,由合口(2-1)出水口的水带动叶片(1-3)转动时;当二个直口(2-3)都安有叶片(1-3)时;挡网(4-1)不是与合口(2-1)同时浇铸在一起,而是安装在合口(2-1)时;当有多个直口(2-3)上安有发电机组(1)时;当有多个直口(2-3)上没有安发电机组(1),而安有阀门部分(3)时;当直口(2-3)安在合口(2-1)侧面时;当第2实施例中,主门(3-1)的升降不是由油缸(3-3)控制,而是采用其它方法将其完成时;当合口(2-1)的进水口截面积大于出水口截面积,而合口(2-1)中间形状为长方形,或其它形状时;以及以上各形式的组合形成的形式,都为本发明内容。
本发明还包括本方法在风力发电中的应用。当在风力发电中的为本发明内容。
Claims (6)
1.一种合口式水浪发电机,包括发电机(1-1)、联接器(1-2)、中片(1-3)、轴(1-4)、轴承座(1-5)和螺母(1-6);发电机(1-1)由联接器(1-2)与轴(1-4)相联,轴承座(1-5)安在轴(1-4)上,叶片(1-3)安在轴(1-4)上后,端部上有螺母(1-6);其特征在于:合口(2-1)前面的进水口面积大于出水口面积;合口(2-1)后面的直口(2-3)内的水带动叶片(1-3)转动,发电机(1-1)在叶片(1-3)带动下发电。
2.根据权利要求1所述的合口式水浪发电机,其特征在于:叶片(1-3)安在直口(2-3)出水口位置。
3.根据权利要求1或2所述的合口式水浪发电机,其特征在于:在合口(2-1)后面接有另一出水的直口(2-3),该直口(2-3)内安有主门(3-1),主门(3-1)与门架(3-2)相联,油缸(3-3)安在直口(2-3)上面;油缸(3-3)可以控制主门(3-1)上下移动,从而调节叶片(1-3)的冲击力大小。
4.根据权利要求1或2或3所述的合口式水浪发电机,其特征在于:在合口(2-1)上面开有槽,门架(3-2)和主门(3-1)放入槽中,油缸(3-3)安在合口(2-1)上方;通过控制主门(3-1)上下移动,达到调节叶片(1-3)的冲击力,从而达到保护发动机(1-1)不受过载而被损坏。
5.根据权利要求1或2或3或4所述的合口式水浪发电机,其特征在于:挡网(4-1)安在合口(2-1)上,扫杆(4-2)安在小车(4-3)上,轨道(4-4)安在合口(2-1)上方,小车(4-3)在轨道(4-4)上行走,带动扫杆(4-2)将卡在挡网(4-1)上的杂物推走。
6.本本发明在风力发电中应用时,也为本发明内容。
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