CN113091002A - 一种能源利用率高的风光互补路灯 - Google Patents
一种能源利用率高的风光互补路灯 Download PDFInfo
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- F03D9/00—Adaptations of wind motors for special use; Combinations of wind motors with apparatus driven thereby; Wind motors specially adapted for installation in particular locations
- F03D9/30—Wind motors specially adapted for installation in particular locations
- F03D9/34—Wind motors specially adapted for installation in particular locations on stationary objects or on stationary man-made structures
- F03D9/43—Wind motors specially adapted for installation in particular locations on stationary objects or on stationary man-made structures using infrastructure primarily used for other purposes, e.g. masts for overhead railway power lines
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Abstract
本发明属于智慧城市领域,尤其是涉及一种能源利用率高的风光互补路灯,包括立柱,所述立柱的上表面固定连接有装置壳体,所述装置壳体内填充有磁流变液,所述装置壳体的上表面密封转动连接有转动轴,所述转动轴内嵌设有铁芯,所述铁芯外绕有导线,所述转动轴外固定连接有限制转动杆,所述转动轴的上端固定连接有水平转盘,所述水平转盘内嵌设有多根螺旋线圈,所述螺旋线圈与导线电性连接,所述水平转盘的侧壁转动连接有竖直转盘,所述竖直转盘的侧壁固定连接有扇叶,所述竖直转盘内嵌设有第一磁块和第二磁块,所述水平转盘的上表面固定连接有滑套。本发明通过设置磁流变液,最大化风能,同时自动清除雨雪,并设置翼板,避免损坏光伏板。
Description
技术领域
本发明属于智慧城市领域,尤其是涉及一种能源利用率高的风光互补路灯。
背景技术
随着新能源的不断发展,新能源路灯得到了更多的人的认可和使用,市场上出现繁荣的局面,各式各样的路灯映入眼帘,风光互补路灯是指既能够将太阳能转化为电能,也能够将风能转化为电能的新能源路灯,实现了太阳能和风能的互补,解决了单一能源带来的弊端,实现了能源的高效利用。
现有的风光互补路灯在工作的过程中,不能根据风的方向自动进行调整,因此不能实现风能利用的最大化,并且在雨雪天气,路灯的表面容易积雪积水,容易损坏内部的电路系统,因此需要及时将积累的雨雪清除,而路灯一般高度较高,不适合人工进行除雪,因此需要使现有的风光互补路灯设计自动除雪的机构,再有,常常会有鸟类驻留在太阳能光伏板的表面,鸟的走动会将光伏板的表面刮花,还很容易在其上留下粪便,影响光伏板的使用寿命,因此需要将路灯上的鸟驱逐。
为此,我们提出一种能源利用率高的风光互补路灯来解决上述问题。
发明内容
本发明的目的是针对上述现有的风光互补路灯能源利用效率低的问题,提供一种安全、防雨雪的能源利用率高的风光互补路灯。
为达到上述目的,本发明采用了下列技术方案:一种能源利用率高的风光互补路灯,包括立柱,所述立柱的上表面固定连接有装置壳体,所述装置壳体内填充有磁流变液,所述装置壳体的上表面密封转动连接有转动轴,所述转动轴内嵌设有铁芯,所述铁芯外绕有导线,所述转动轴外固定连接有限制转动杆,所述转动轴的上端固定连接有水平转盘,所述水平转盘内嵌设有多根螺旋线圈,所述螺旋线圈与导线电性连接,所述水平转盘的侧壁转动连接有竖直转盘,所述竖直转盘的侧壁固定连接有扇叶,所述竖直转盘内嵌设有第一磁块和第二磁块,所述水平转盘的上表面固定连接有滑套,所述滑套内滑动连接有条形磁铁,所述第一磁块与条形磁铁异极相对,所述第二磁块与条形磁铁同极相对,所述条形磁铁的侧壁固定连接有推杆,所述推杆的一端固定连接有清洁块。
在上述的能源利用率高的风光互补路灯中,所述条形磁铁的侧壁设有缓冲垫,所述缓冲垫由橡胶材料制成。
在上述的能源利用率高的风光互补路灯中,所述立柱的侧壁固定连接有支撑板,所述支撑板的侧壁固定连接有光伏板,所述光伏板的上表面固定连接有滑轨,所述滑轨的内侧下壁固定连接有弹簧,所述弹簧的上端固定连接有按压块,所述按压块与滑轨滑动连接,所述按压块的上表面固定连接有齿条,所述齿条的上端固定连接有翼板,所述滑轨的上表面固定连接有支撑块,所述支撑块的侧壁转动连接有传动轴,所述传动轴外同轴固定套接有齿轮,所述齿轮与齿条啮合,所述传动轴的侧壁设有多根拨动块,所述滑轨的上表面固定连接有安装块,所述安装块的侧壁固定连接有驱逐板,所述滑轨的内侧上壁固定连接有压电陶瓷片,所述滑轨的侧壁固定连接有蓄电池,所述压电陶瓷片与蓄电池电性连接,所述光伏板的上表面固定连接有竖板,所述竖板的侧壁设有挡雨机构。
在上述的能源利用率高的风光互补路灯中,所述拨动块由钢材制成,所述钢材为经过热处理的高强度钢材。
在上述的能源利用率高的风光互补路灯中,所述滑轨的内侧壁涂覆有光滑涂层,所述光滑涂层由陶瓷涂层材料制成。
在上述的能源利用率高的风光互补路灯中,所述挡雨机构包括固定连接在竖板侧壁的空心筒,所述空心筒的内侧上壁固定连接有电机,所述电机与蓄电池电性连接,所述电机的输出轴上固定连接有螺纹杆,所述空心筒的两侧通过销轴转动连接有挡板,所述挡板的下表面通过销轴转动有摆杆,两根所述摆杆共同转动连接有套筒,所述套筒与螺纹杆螺纹连接。
在上述的能源利用率高的风光互补路灯中,所述挡板的表面涂覆有防水涂料,所述防水涂料由丙烯酸制成。
在上述的能源利用率高的风光互补路灯中,所述翼板的表面设有蒙皮材料,所述蒙皮材料为钛合金。
与现有的技术相比,本能源利用率高的风光互补路灯的优点在于:
1、本发明通过设置磁流变液,当风与扇叶处于同一平面时,转动轴保持不动,当风向与扇叶所在的面存在角度时,带动转动轴转动一定角度,使扇叶与风所在面平行,实现根据风向调节扇叶的角度,使风能利用最大化,避免造成资源的浪费。
2、本发明通过设置条形磁铁,在竖直转盘转动的同时带动清洁块往复滑动,实现雨雪的自动清除,避免造成内部零件的损坏,延长其使用寿命。
3、本发明通过设置翼板,当起风时,带动按压块滑动并反复撞击压电陶瓷片,产生的电储存在蓄电池内,为电机供电,同时反复拨动驱逐板,产生较大的声音,将光伏板上的鸟驱逐,避免其造成光伏板的损坏。
4、本发明通过设置螺纹杆,调节挡板的角度,当下雨时,增大两块挡板之间的角度,使其遮挡住雨水,避免淋湿光伏板,当不下雨时,减小两块挡板之间的角度,避免挡板遮挡住阳光,造成光能利用效率低。
附图说明
图1是本发明提供的一种能源利用率高的风光互补路灯实施例的结构示意图;
图2是图1中A处的放大图;
图3是本发明提供的一种能源利用率高的风光互补路灯实施例中条形磁铁在靠近竖直转盘时的结构示意图;
图4是本发明提供的一种能源利用率高的风光互补路灯实施例中条形磁铁在远离竖直转盘时的结构示意图;
图5是本发明提供的一种能源利用率高的风光互补路灯实施例中拨动块的结构示意图;
图6是本发明提供的一种能源利用率高的风光互补路灯实施例中挡雨机构的结构示意图。
图中,1立柱、2装置壳体、3磁流变液、4转动轴、5限制转动杆、6螺旋线圈、7竖直转盘、8扇叶、9第一磁块、10滑套、11条形磁铁、12推杆、13清洁块、14套筒、15铁芯、16支撑板、17光伏板、18第二磁块、19滑轨、20弹簧、21按压块、22压电陶瓷片、23齿条、24支撑块、25传动轴、26齿轮、27拨动块、28翼板、29安装块、30驱逐板、31竖板、32挡雨机构、33蓄电池、34空心筒、35电机、36螺纹杆、37挡板、38摆杆、39水平转盘。
具体实施方式
以下实施例仅处于说明性目的,而不是想要限制本发明的范围。
实施例
如图1-6所示,一种能源利用率高的风光互补路灯,包括立柱1,立柱1的上表面固定连接有装置壳体2,装置壳体2内填充有磁流变液3,通过设置磁流变液3,当风与扇叶8处于同一平面时,转动轴4保持不动,当风向与扇叶8所在的面存在角度时,带动转动轴4转动一定角度,使扇叶8与风所在面平行,实现根据风向调节扇叶8的角度,使风能利用最大化,避免造成资源的浪费,装置壳体2的上表面密封转动连接有转动轴4,转动轴4内嵌设有铁芯15,铁芯15外绕有导线,转动轴4外固定连接有限制转动杆5,转动轴4的上端固定连接有水平转盘39,水平转盘39内嵌设有多根螺旋线圈6,螺旋线圈6与导线电性连接。
本发明中,水平转盘39的侧壁转动连接有竖直转盘7,竖直转盘7的侧壁固定连接有扇叶8,竖直转盘7内嵌设有第一磁块9和第二磁块18,水平转盘39的上表面固定连接有滑套10,滑套10内滑动连接有条形磁铁11,通过设置条形磁铁11,在竖直转盘7转动的同时带动清洁块13往复滑动,实现雨雪的自动清除,避免造成内部零件的损坏,延长其使用寿命,值得注意的是,条形磁铁11的侧壁设有缓冲垫,缓冲垫由橡胶材料制成,第一磁块9与条形磁铁11异极相对,第二磁块18与条形磁铁11同极相对,条形磁铁11的侧壁固定连接有推杆12,推杆12的一端固定连接有清洁块13。
本发明中,立柱1的侧壁固定连接有支撑板16,支撑板16的侧壁固定连接有光伏板17,光伏板17的上表面固定连接有滑轨19,值得注意的是,滑轨19的内侧壁涂覆有光滑涂层,光滑涂层由陶瓷涂层材料制成,滑轨19的内侧下壁固定连接有弹簧20,弹簧20的上端固定连接有按压块21,按压块21与滑轨19滑动连接,按压块21的上表面固定连接有齿条23,齿条23的上端固定连接有翼板28,通过设置翼板28,当起风时,带动按压块21滑动并反复撞击压电陶瓷片22,产生电,并储存在蓄电池33内,为电机35供电,同时反复拨动驱逐板30,产生较大的声音,将光伏板17上的鸟驱逐,避免其造成光伏板17的损坏。
本发明中,值得注意的是,翼板28的表面设有蒙皮材料,蒙皮材料为钛合金,滑轨19的上表面固定连接有支撑块24,支撑块24的侧壁转动连接有传动轴25,传动轴25外同轴固定套接有齿轮26,齿轮26与齿条23啮合,传动轴25的侧壁设有多根拨动块27,需要说明的是,拨动块27由钢材制成,钢材为经过热处理的高强度钢材,滑轨19的上表面固定连接有安装块29,安装块29的侧壁固定连接有驱逐板30,滑轨19的内侧上壁固定连接有压电陶瓷片22,滑轨19的侧壁固定连接有蓄电池33,压电陶瓷片22与蓄电池33电性连接,光伏板17的上表面固定连接有竖板31,竖板31的侧壁设有挡雨机构32。
本发明中,需要说明的是,挡雨机构32包括固定连接在竖板31侧壁的空心筒34,空心筒34的内侧上壁固定连接有电机35(型号为M590-502),电机35与蓄电池33电性连接,电机35的输出轴上固定连接有螺纹杆36,通过设置螺纹杆36,调节挡板37的角度,当下雨时,增大两块挡板37之间的角度,使其遮挡住雨水,避免淋湿光伏板17,当不下雨时,减小两块挡板37之间的角度,避免挡板37遮挡住阳光,造成光能利用效率低,空心筒34的两侧通过销轴转动连接有挡板37,值得注意的是,挡板37的表面涂覆有防水涂料,防水涂料由丙烯酸制成,挡板37的下表面通过销轴转动有摆杆38,两根摆杆38共同转动连接有套筒14,套筒14与螺纹杆36螺纹连接。
本发明的工作原理如下:扇叶8在风的带动下转动,从而带动第一磁块9和第二磁块18转动,使磁感线被螺旋线圈6切割,电流从导线内流过,使铁芯15磁化,根据磁流变液3的性质(磁流变液3在外界无磁场时呈现低粘度的牛顿流体性质)可知,当扇叶8转得越快,磁流变液3的粘度越高,当风刚好与扇叶8所在平面平行时,扇叶8的转速较快,此时产生的电流较大,磁流变液3的粘度较高,因此转动轴4的转动受到限制,此时可保持扇叶8仅绕自身轴线旋转,而当风与扇叶8所在平面呈一定角度时,扇叶8的转速较慢,此时产生的电流较小,磁流变液3的粘度较低,因此转动轴4可绕自身轴线转动,因而带动扇叶8绕转动轴4的轴线转动,当扇叶8的转速变快时(即当扇叶8转动到与风所在平面平行时),转动轴4的转动受到限制,此时扇叶8仅可沿自身轴线旋转,通过以上机构,实现根据风向自动调整扇叶8的角度,使风能的利用最大化。
扇叶8带动竖直转盘7转动,因此第一磁块9和第二磁块18转动,当第一磁块9转动到靠近条形磁铁11的位置时,条形磁铁11受到第一磁块9的吸引力,带动清洁块13向靠近竖直转盘7的方向滑动,当第二磁块18转动到靠近条形磁铁11的位置时,条形磁铁11受到第二磁块18的斥力,推动清洁块13向远离竖直转盘7的方向滑动,如此往复,实现雨雪的自动清除,避免造成内部零件的损坏,延长其使用寿命。
根据伯努利原理(流体流速越快,产生的压强越小)可知,当有风吹过时,翼板28上表面的气压较小,在压强差的作用下,翼板28向上移动,当无风时,翼板28又在重力的作用下向下移动,从而带动齿条23往复移动,带动齿轮26和传动轴25转动,从而使驱逐板30被多块拨动块27拨动,以产生声音,将鸟驱赶走,避免其在光伏板17表面走动,爪子将光伏板17刮花,减小光伏板17的使用寿命,根据压电陶瓷片22的性质(当振动压电陶瓷片22时,会产生电荷)可知,在齿条23往复移动的同时,带动按压块21反复撞击压电陶瓷片22,以产生电,产生的电能被储存在蓄电池33内,为电机35供电。
当下雨时,需要将光伏板17遮挡住,开启电机35,带动螺纹杆36转动,从而带动套筒14向上移动,带动摆杆38摆动,因此带动挡板37旋转,并且两块挡板37之间的夹角逐渐增大,此时光伏板17被挡板37遮挡住的面积较大,雨水可沿挡板37的上表面流走,避免直接淋在光伏板17上,造成光伏板17内部零件的损坏,当不下雨时,可重新开启电机35,带动螺纹杆36反向转动,从而带动套筒14向下移动,因此带动挡板37旋转且两块挡板37之间的夹角逐渐减小,此时光伏板17被挡板37遮挡住的面积较小,可避免挡板37遮挡住阳光,造成光能利用效率低。
以上所述仅为本发明的较佳实施例,并不用以限制本发明,凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
Claims (8)
1.一种能源利用率高的风光互补路灯,包括立柱(1),其特征在于,所述立柱(1)的上表面固定连接有装置壳体(2),所述装置壳体(2)内填充有磁流变液(3),所述装置壳体(2)的上表面密封转动连接有转动轴(4),所述转动轴(4)内嵌设有铁芯(15),所述铁芯(15)外绕有导线,所述转动轴(4)外固定连接有限制转动杆(5),所述转动轴(4)的上端固定连接有水平转盘(39),所述水平转盘(39)内嵌设有多根螺旋线圈(6),所述螺旋线圈(6)与导线电性连接,所述水平转盘(39)的侧壁转动连接有竖直转盘(7),所述竖直转盘(7)的侧壁固定连接有扇叶(8),所述竖直转盘(7)内嵌设有第一磁块(9)和第二磁块(18),所述水平转盘(39)的上表面固定连接有滑套(10),所述滑套(10)内滑动连接有条形磁铁(11),所述第一磁块(9)与条形磁铁(11)异极相对,所述第二磁块(18)与条形磁铁(11)同极相对,所述条形磁铁(11)的侧壁固定连接有推杆(12),所述推杆(12)的一端固定连接有清洁块(13)。
2.根据权利要求1所述的能源利用率高的风光互补路灯,其特征在于,所述条形磁铁(11)的侧壁设有缓冲垫,所述缓冲垫由橡胶材料制成。
3.根据权利要求1所述的能源利用率高的风光互补路灯,其特征在于,所述立柱(1)的侧壁固定连接有支撑板(16),所述支撑板(16)的侧壁固定连接有光伏板(17),所述光伏板(17)的上表面固定连接有滑轨(19),所述滑轨(19)的内侧下壁固定连接有弹簧(20),所述弹簧(20)的上端固定连接有按压块(21),所述按压块(21)与滑轨(19)滑动连接,所述按压块(21)的上表面固定连接有齿条(23),所述齿条(23)的上端固定连接有翼板(28),所述滑轨(19)的上表面固定连接有支撑块(24),所述支撑块(24)的侧壁转动连接有传动轴(25),所述传动轴(25)外同轴固定套接有齿轮(26),所述齿轮(26)与齿条(23)啮合,所述传动轴(25)的侧壁设有多根拨动块(27),所述滑轨(19)的上表面固定连接有安装块(29),所述安装块(29)的侧壁固定连接有驱逐板(30),所述滑轨(19)的内侧上壁固定连接有压电陶瓷片(22),所述滑轨(19)的侧壁固定连接有蓄电池(33),所述压电陶瓷片(22)与蓄电池(33)电性连接,所述光伏板(17)的上表面固定连接有竖板(31),所述竖板(31)的侧壁设有挡雨机构(32)。
4.根据权利要求3所述的能源利用率高的风光互补路灯,其特征在于,所述拨动块(27)由钢材制成,所述钢材为经过热处理的高强度钢材。
5.根据权利要求3所述的能源利用率高的风光互补路灯,其特征在于,所述滑轨(19)的内侧壁涂覆有光滑涂层,所述光滑涂层由陶瓷涂层材料制成。
6.根据权利要求3所述的能源利用率高的风光互补路灯,其特征在于,所述挡雨机构(32)包括固定连接在竖板(31)侧壁的空心筒(34),所述空心筒(34)的内侧上壁固定连接有电机(35),所述电机(35)与蓄电池(33)电性连接,所述电机(35)的输出轴上固定连接有螺纹杆(36),所述空心筒(34)的两侧通过销轴转动连接有挡板(37),所述挡板(37)的下表面通过销轴转动有摆杆(38),两根所述摆杆(38)共同转动连接有套筒(14),所述套筒(14)与螺纹杆(36)螺纹连接。
7.根据权利要求6所述的能源利用率高的风光互补路灯,其特征在于,所述挡板(37)的表面涂覆有防水涂料,所述防水涂料由丙烯酸制成。
8.根据权利要求6所述的能源利用率高的风光互补路灯,其特征在于,所述翼板(28)的表面设有蒙皮材料,所述蒙皮材料为钛合金。
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