CN111677618A - 波浪能发电装置的行走机构的水准装置 - Google Patents
波浪能发电装置的行走机构的水准装置 Download PDFInfo
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
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- F05B2240/93—Mounting on supporting structures or systems on a structure floating on a liquid surface
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
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- F05B2260/00—Function
- F05B2260/40—Transmission of power
- F05B2260/403—Transmission of power through the shape of the drive components
- F05B2260/4031—Transmission of power through the shape of the drive components as in toothed gearing
- F05B2260/40311—Transmission of power through the shape of the drive components as in toothed gearing of the epicyclic, planetary or differential type
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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
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Abstract
本发明公开了波浪能发电装置的行走机构的水准装置,用于海洋波浪能发电;它主要包括电极片C、金属浮球、电极片A、电极片B;其工作原理是:海浪冲击挡板并推动行走机构向右沿浮箱的圆弧凹面行走并带动发电机组发电,挡板会有向左倾斜的趋势,当挡板向左倾斜时金属浮球向左漂移并触及到电极片A,电极片A与电极片C的电路接通,控制系统根据这一信号指令液压活塞回缩一段距离,使挡板绕中心轴向右转动一个角度保持垂直状态,当挡板处于垂直状态后,金属浮球又漂移回居中状态,断开电极片A与电极片C的电路,控制系统根据这一信号指令液压活塞停止回缩,当挡板再次向左倾斜时,控制系统再次按上述工作原理指令液压活塞工作使挡板保持垂直状态。
Description
技术领域
本发明主要用于海洋波浪能发电。
背景技术
已申请的发明专利“一种波浪能发电装置的行走装置”,申请号“2020105559830”,需要一种水准装置监测挡板的垂直度。
发明内容
本发明就是这种水准装置; 它主要包括电极片C(33)、金属浮球(34)、电极片A(35)、电极片B(36)、非导电液体(38)、外壳(39),外壳(39)与挡板(3)的上端固定,电极片C(33)固定在外壳(39)的上内壁,电极片A(35)固定在外壳(39)的左侧内壁,电极片B(36)固定在外壳(39)的右侧内壁,电极片C(33)、电极片A(35)、电极片B(36)均连接有信号线至液压活塞(25)的控制系统输入端口,外壳(39)由非导电材料制造,外壳(39)内有非导电液体(38),金属浮球(34)漂浮在非导电液体(38)上,其上端顶着电极片C(33)的表面,当挡板(3)处于垂直状态时金属浮球(34)居中;所述水准装置的工作原理是:海浪从左侧冲击挡板(3),挡板(3)将冲击力传给行走机构(28)并推动行走机构(28)由左向右沿浮箱(12)的圆弧凹面(19)行走至最高点并停止,在行走机构(28)行走过程中,前后两个齿轮A(6)及齿轮B(8)沿圆弧凹面(19)的轮齿滚动,并带动发电机组(17)的转子转动发电;在行走机构(28)向上行走过程中,挡板(3)会有向左倾斜的趋势,当挡板(3)向左倾斜时金属浮球(34)将向右漂移并触及到电极片B(36),电极片B(36)通过金属浮球(34)与电极片C(33)的电路接通,液压系统(24)的控制系统根据这一信号指令液压活塞(25)回缩一段距离,使挡板(3)绕中心轴(2)向右转动一个角度保持垂直状态,当挡板(3)处于垂直状态后,金属浮球(34)又漂移回居中状态,断开电极片B(36)与电极片C(33)的电路,液压系统(24)的控制系统根据这一信号指令液压活塞(25)停止回缩,当挡板(3)再次向左倾斜时,液压系统(24)的控制系统再次按上述工作原理指令液压活塞(25)工作使挡板(3)保持垂直状态;当海浪平息后,行走机构(28)由于重力作用由最高点沿圆弧凹面(19)向左行走至最低点,前后两个齿轮A(6)及齿轮B(8)沿圆弧凹面(19)的轮齿滚动并带动发电机组(17)的转子转动发电,在这一过程中,挡板(3)会有向右倾斜的趋势,当挡板(3)向右倾斜时金属浮球(34)将向左漂移触及到电极片A(35),电极片A(35)通过金属浮球(34)与电极片C(33)的电路接通,液压系统(24)的控制系统根据这一信号指令液压活塞(25)伸长一段距离,使挡板(3)绕中心轴(2)向左转动一个角度保持垂直状态,当挡板(3)处于垂直状态后,金属浮球(34)又漂移回居中状态,断开电极片A(35)与电极片C(33)的电路,液压系统(24)的控制系统根据这一信号指令液压活塞(25)停止伸长,当挡板(3)再次向右倾斜时,液压系统(24)的控制系统再次按上述工作原理指令液压活塞(25)工作使挡板(3)保持垂直状态;当海浪再次从左侧冲击挡板(3)后,行走机构(28)继续带动发电机组(17)的转子转动发电,液压系统(24)的控制系统不断地指令液压活塞(25)工作使挡板(3)始终保持垂直状态。
附图说明
附图标记说明:1-滚筒,2-中心轴,3-挡板,4-棘爪A,5-倾斜板,6-齿轮A,7-行星齿轮A,8-齿轮B,9-轮齿A,10-发电机转子,11-发电机定子,12-浮箱,13-轮齿B,14-三角形行走车架,15-后轴,16-挡板支腿,17-发电机组,18-行星齿轮架A,19-圆弧凹面,20-平静海平面,21-海浪,22-前轴,23-轮齿C,24-液压系统,25-液压活塞,26-液压油缸,27-行星齿轮B,28-行走机构,29-轮齿D,30-行星齿轮C,31-行星齿轮架B,32-棘爪B,33-电极片C,34-金属浮球,35-电极片A,36-电极片B,37-垂直偏离触发机构,38-非导电液体,39-外壳。
图1是已申请的发明专利“挡板上升式波浪能发电装置”的挡板3处于高位的立面示意图。
图2是已申请的发明专利“挡板上升式波浪能发电装置”的正立面示意图。
图3是已申请的发明专利“挡板上升式波浪能发电装置”的发电机组17的行星齿轮A7与发电机转子10配合的剖面大样图。
图4是已申请的发明专利“挡板上升式波浪能发电装置”的挡板3处于低位的立面示意图。
图5是已申请的发明专利“挡板上升式波浪能发电装置”的发电机组17的俯视示意图。
图6是已申请的发明专利“挡板上升式波浪能发电装置”的挡板3的左视立面示意图。
图7是已申请的发明专利“挡板上升式波浪能发电装置”的发电机组17的行星齿轮B27、行星齿轮C30与发电机转子10配合的剖面大样图。
图8是已申请的发明专利“一种波浪能发电装置的行走装置”的垂直偏离触发机构37的立面位置示意图。
图9是已申请的发明专利“一种波浪能发电装置的行走装置”的垂直偏离触发机构37的立面剖面详图。
具体实施方式
参见图1、2、3、4、5、6、7、8、9,海浪从左侧冲击挡板3,挡板3将冲击力传给行走机构28并推动行走机构28由左向右沿浮箱12的圆弧凹面19行走至最高点并停止,在行走机构28行走过程中,前后两个齿轮A6及齿轮B8沿圆弧凹面19的轮齿滚动,并带动发电机组17的转子转动发电;在行走机构28向上行走过程中,挡板3会有向左倾斜的趋势,当挡板3向左倾斜时金属浮球34将向右漂移并触及到电极片B36,电极片B36通过金属浮球34与电极片C33的电路接通,液压系统24的控制系统根据这一信号指令液压活塞25回缩一段距离,使挡板3绕中心轴2向右转动一个角度保持垂直状态,当挡板3处于垂直状态后,金属浮球34又漂移回居中状态,断开电极片B36与电极片C33的电路,液压系统24的控制系统根据这一信号指令液压活塞25停止回缩,当挡板3再次向左倾斜时,液压系统24的控制系统再次按上述工作原理指令液压活塞25工作使挡板3保持垂直状态;当海浪平息后,行走机构28由于重力作用由最高点沿圆弧凹面19向左行走至最低点,前后两个齿轮A6及齿轮B8沿圆弧凹面19的轮齿滚动并带动发电机组17的转子转动发电,在这一过程中,挡板3会有向右倾斜的趋势,当挡板3向右倾斜时金属浮球34将向左漂移触及到电极片A35,电极片A35通过金属浮球34与电极片C33的电路接通,液压系统24的控制系统根据这一信号指令液压活塞25伸长一段距离,使挡板3绕中心轴2向左转动一个角度保持垂直状态,当挡板3处于垂直状态后,金属浮球34又漂移回居中状态,断开电极片A35与电极片C33的电路,液压系统24的控制系统根据这一信号指令液压活塞25停止伸长,当挡板3再次向右倾斜时,液压系统24的控制系统再次按上述工作原理指令液压活塞25工作使挡板3保持垂直状态;当海浪再次从左侧冲击挡板3后,行走机构28继续带动发电机组17的转子转动发电,液压系统24的控制系统不断地指令液压活塞25工作使挡板3始终保持垂直状态。
需说明:需说明:发电机组17、行走机28、液压系统24等已在已申请的发明专利“挡板上升式波浪能发电装置”中详细说明了其具体构造,这里不再赘述。
Claims (1)
1.波浪能发电装置的行走机构的水准装置,其特征是:它主要包括电极片C(33)、金属浮球(34)、电极片A(35)、电极片B(36)、非导电液体(38)、外壳(39),外壳(39)与挡板(3)的上端固定,电极片C(33)固定在外壳(39)的上内壁,电极片A(35)固定在外壳(39)的左侧内壁,电极片B(36)固定在外壳(39)的右侧内壁,电极片C(33)、电极片A(35)、电极片B(36)均连接有信号线至液压活塞(25)的控制系统输入端口,外壳(39)由非导电材料制造,外壳(39)内有非导电液体(38),金属浮球(34)漂浮在非导电液体(38)上,其上端顶着电极片C(33)的表面,当挡板(3)处于垂直状态时金属浮球(34)居中;所述水准装置的工作原理是:海浪从左侧冲击挡板(3),挡板(3)将冲击力传给行走机构(28)并推动行走机构(28)由左向右沿浮箱(12)的圆弧凹面(19)行走至最高点并停止,在行走机构(28)行走过程中,前后两个齿轮A(6)及齿轮B(8)沿圆弧凹面(19)的轮齿滚动,并带动发电机组(17)的转子转动发电;在行走机构(28)向上行走过程中,挡板(3)会有向左倾斜的趋势,当挡板(3)向左倾斜时金属浮球(34)将向右漂移并触及到电极片B(36),电极片B(36)通过金属浮球(34)与电极片C(33)的电路接通,液压系统(24)的控制系统根据这一信号指令液压活塞(25)回缩一段距离,使挡板(3)绕中心轴(2)向右转动一个角度保持垂直状态,当挡板(3)处于垂直状态后,金属浮球(34)又漂移回居中状态,断开电极片B(36)与电极片C(33)的电路,液压系统(24)的控制系统根据这一信号指令液压活塞(25)停止回缩,当挡板(3)再次向左倾斜时,液压系统(24)的控制系统再次按上述工作原理指令液压活塞(25)工作使挡板(3)保持垂直状态;当海浪平息后,行走机构(28)由于重力作用由最高点沿圆弧凹面(19)向左行走至最低点,前后两个齿轮A(6)及齿轮B(8)沿圆弧凹面(19)的轮齿滚动并带动发电机组(17)的转子转动发电,在这一过程中,挡板(3)会有向右倾斜的趋势,当挡板(3)向右倾斜时金属浮球(34)将向左漂移触及到电极片A(35),电极片A(35)通过金属浮球(34)与电极片C(33)的电路接通,液压系统(24)的控制系统根据这一信号指令液压活塞(25)伸长一段距离,使挡板(3)绕中心轴(2)向左转动一个角度保持垂直状态,当挡板(3)处于垂直状态后,金属浮球(34)又漂移回居中状态,断开电极片A(35)与电极片C(33)的电路,液压系统(24)的控制系统根据这一信号指令液压活塞(25)停止伸长,当挡板(3)再次向右倾斜时,液压系统(24)的控制系统再次按上述工作原理指令液压活塞(25)工作使挡板(3)保持垂直状态;当海浪再次从左侧冲击挡板(3)后,行走机构(28)继续带动发电机组(17)的转子转动发电,液压系统(24)的控制系统不断地指令液压活塞(25)工作使挡板(3)始终保持垂直状态。
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