CN108081985A - 利用太阳能、风能的一体化充电桩 - Google Patents
利用太阳能、风能的一体化充电桩 Download PDFInfo
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Abstract
本发明公开了一种利用太阳能、风能的一体化充电桩,包括:充电桩本体,所述充电桩本体固定在底座上,所述底座一侧固定有蓄电池和风光互补控制器,所述充电桩本体的顶部设有顶棚,所述顶棚上通过固定杆固定有聚光罩,所述聚光罩内固定有支撑柱,所述支撑柱上固定有固定套,所述支架上安装有太阳能光伏板;风力发电机,所述风力发电机固定在连接杆的顶端,所述连接杆转动连接于支撑柱的顶部,所述支撑柱的侧壁上螺纹连接有接线柱。本发明通过聚光罩对光线进行反射,提高太阳能光伏板上的光照强度,增加了太阳能的发电效率,通过尾板可以根据风向自动对风力发电机的朝向进行调整,使得风力发电机的扇叶保持与风速垂直,提高风力发电的效率。
Description
技术领域
本发明属于充电桩装置技术领域,具体涉及一种利用太阳能、风能的一体化充电桩。
背景技术
充电桩其功能类似于加油站里面的加油机,可以固定在地面或墙壁,安装于公共建筑(公共楼宇、商场、公共停车场等)和居民小区停车场或充电站内,可以根据不同的电压等级为各种型号的电动汽车充电。充电桩的输入端与交流电网直接连接,输出端都装有充电插头用于为电动汽车充电。充电桩一般提供常规充电和快速充电两种充电方式,人们可以使用特定的充电卡在充电桩提供的人机交互操作界面上刷卡使用,进行相应的充电方式、充电时间、费用数据打印等操作,充电桩显示屏能显示充电量、费用、充电时间等数据。
随着新能源的普及,越来越多的设施结合了风力发电与太阳能发电,但是现有的风力发电机通常固定在高处,再由风吹动扇叶进行发电,由于自然风的风向不固定,并有随季节改变的特性,因此,现有的风力发电机不能充分利用风力进行发电,发电效率较低,而太阳能发电则受到太阳能转化效率的限制,发电效率不理想。因此需要提出一种利用太阳能、风能的一体化充电桩,提高风力和太阳光的发电效率。
发明内容
本发明的目的在于提供一种利用太阳能、风能的一体化充电桩,以解决上述背景技术中提出的问题。
为实现上述目的,本发明提供如下技术方案:一种利用太阳能、风能的一体化充电桩,包括:
充电桩本体,所述充电桩本体固定在底座上,所述底座一侧固定有蓄电池和风光互补控制器,所述充电桩本体的顶部设有顶棚,所述顶棚上通过固定杆固定有聚光罩,所述聚光罩内固定有支撑柱,所述支撑柱上固定有固定套,所述固定套上固定有支架,所述支架上安装有太阳能光伏板;
风力发电机,所述风力发电机固定在连接杆的顶端,所述连接杆转动连接于支撑柱的顶部,所述支撑柱的侧壁上螺纹连接有接线柱。
优选的,所述风力发电机、太阳能光伏板通过风光互补控制器电性连接于蓄电池,所述蓄电池与充电桩本体电性连接。
优选的,所述太阳能光伏板围成柱形并分布在支撑柱外侧。
优选的,所述聚光罩呈开口向上的碗状,所述聚光罩的内表面由反光单元组成,所述反光单元为平面型镜面,所述聚光罩的底部设有排水孔。
优选的,所述支撑柱顶端内设有空腔,所述空腔的顶部与底部均设有轴承,所述连接杆固定在轴承的内圈上。
优选的,所述连接杆上固定有分别电性连接于风力发电机正、负电极的上导电环和下导电环,所述上导电环和下导电环上均设有滑槽。
优选的,所述接线柱设有两个,所述接线柱的底端固定有电刷,所述电刷与上导电环和下导电环滑动连接。
优选的,所述连接杆上固定有封盖,所述封盖卡在支撑柱顶部。
优选的,所述风力发电机上固定有尾板。
本发明的技术效果和优点:
1、通过聚光罩内的反光单元,将入射光线反射至太阳能光伏板表面上,提高太阳能光伏板上的光照强度,增加了太阳能的发电效率,反光单元为平面型镜面,可以将光线反射时避免光线集中在一点处形成高温损坏太阳能光伏板;
2、通过尾板,可以根据风向自动对风力发电机的朝向进行调整,使得风力发电机的扇叶保持与风速垂直,提高风力发电的效率。
附图说明
图1为本发明一种利用太阳能、风能的一体化充电桩的结构示意图;
图2为本发明一种利用太阳能、风能的一体化充电桩的聚光罩结构示意图;
图3为本发明一种利用太阳能、风能的一体化充电桩的太阳能光伏板安装结构示意图;
图4为本发明一种利用太阳能、风能的一体化充电桩的连接杆结构示意图;
图5为本发明一种利用太阳能、风能的一体化充电桩的上导电环结构示意图;
图6为本发明一种利用太阳能、风能的一体化充电桩的电路模块连接结构示意图。
图中:1风力发电机、2支撑柱、3太阳能光伏板、4聚光罩、401反光单元、402排水孔、5顶棚、6充电桩本体、7底座、8蓄电池、9风光互补控制器、10固定杆、11支架、12连接杆、13接线柱、14上导电环、15下导电环、16轴承、17固定套、18滑槽、19封盖、20尾板。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
如图1-6所示,一种利用太阳能、风能的一体化充电桩,包括:
充电桩本体6,所述充电桩本体6固定在底座7上,所述底座7一侧固定有蓄电池8和风光互补控制器9,所述充电桩本体6的顶部设有顶棚5,所述顶棚5上通过固定杆10固定有聚光罩4,所述聚光罩4内固定有支撑柱2,所述支撑柱2上固定有固定套17,所述固定套17上固定有支架11,所述支架11上安装有太阳能光伏板3;
风力发电机1,所述风力发电机1固定在连接杆12的顶端,所述连接杆12转动连接于支撑柱2的顶部,所述支撑柱2的侧壁上螺纹连接有接线柱13。
所述风力发电机1、太阳能光伏板3通过风光互补控制器9电性连接于蓄电池8,所述蓄电池8与充电桩本体6电性连接。
所述太阳能光伏板3围成柱形并分布在支撑柱2外侧,通过柱形分布的太阳能光伏板3,可以全方位接收太阳光以及来自聚光罩4的反射光,使得落在太阳能光伏板3上的光照强度增加,提高太阳能的转化效率。
所述聚光罩4呈开口向上的碗状,所述聚光罩4的内表面由反光单元401组成,所述反光单元401为平面型镜面,所述聚光罩4的底部设有排水孔402,太阳能光伏板3位于聚光罩4的中心处,当太阳光照进聚光罩4时,通过反光单元401,将入射光线反射至太阳能光伏板3表面上,反光单元401为平面型镜面,可以将光线反射时避免光线集中在一点处形成高温损坏太阳能光伏板3。
所述支撑柱2顶端内设有空腔,所述空腔的顶部与底部均设有轴承16,所述连接杆12固定在轴承16的内圈上,通过轴承16,有利于连接杆12旋转,降低风力发电机1的转动阻力,有利于风力发电机1自动将扇叶调整至与风向垂直的方位,提高风力的利用率。
所述连接杆12上固定有分别电性连接于风力发电机1正、负电极的上导电环14和下导电环15,所述上导电环14和下导电环15上均设有滑槽18,所述接线柱13设有两个,所述接线柱13的底端固定有电刷,所述电刷与上导电环14和下导电环15滑动连接,通过转动接线柱13,使得电刷落在上导电环14和下导电环15上的滑槽18中,可以在连接杆12转动时始终保持电刷与上导电环14和下导电环15电性连接,进而通过接线柱13上的导线将风力发电机1产生的电能输送至蓄电池8。
所述连接杆12上固定有封盖19,所述封盖9卡在支撑柱2顶部,通过封盖19,可以避免雨水落入支撑柱2顶部的内腔中,防止因雨水而发生短路,提高安全性能。
所述风力发电机1上固定有尾板20,当风经吹至尾板20表面时,会对尾板20的侧面形成推力,进而推动尾板20带动连接杆12旋转,将尾板20调整至与风速平行的方向上,此时风力发电机1的扇叶与风速垂直。
具体的,使用时,在太阳能光伏板3的作用下,将太阳能转换成电能并存储在蓄电池8中,通过聚光罩4内的反光单元401,将入射光线反射至太阳能光伏板3表面上,提高太阳能光伏板3上的光照强度,增加了太阳能的发电效率,反光单元401为平面型镜面,可以将光线反射时避免光线集中在一点处形成高温损坏太阳能光伏板3,通过尾板20,可以根据风向自动对风力发电机1的朝向进行调整,使得风力发电机1的扇叶保持与风速垂直,提高风力发电的效率,在通过上导电环14和下导电环15将电能通过接线柱13输送至蓄电池8中,用于充电桩本体6使用。
最后应说明的是:以上所述仅为本发明的优选实施例而已,并不用于限制本发明,尽管参照前述实施例对本发明进行了详细的说明,对于本领域的技术人员来说,其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换,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 (9)
1.一种利用太阳能、风能的一体化充电桩,其特征在于,包括:
充电桩本体(6),所述充电桩本体(6)固定在底座(7)上,所述底座(7)一侧固定有蓄电池(8)和风光互补控制器(9),所述充电桩本体(6)的顶部设有顶棚(5),所述顶棚(5)上通过固定杆(10)固定有聚光罩(4),所述聚光罩(4)内固定有支撑柱(2),所述支撑柱(2)上固定有固定套(17),所述固定套(17)上固定有支架(11),所述支架(11)上安装有太阳能光伏板(3);
风力发电机(1),所述风力发电机(1)固定在连接杆(12)的顶端,所述连接杆(12)转动连接于支撑柱(2)的顶部,所述支撑柱(2)的侧壁上螺纹连接有接线柱(13)。
2.根据权利要求1所述的一种利用太阳能、风能的一体化充电桩,其特征在于:所述风力发电机(1)、太阳能光伏板(3)通过风光互补控制器(9)电性连接于蓄电池(8),所述蓄电池(8)与充电桩本体(6)电性连接。
3.根据权利要求1所述的一种利用太阳能、风能的一体化充电桩,其特征在于:所述太阳能光伏板(3)围成柱形并分布在支撑柱(2)外侧。
4.根据权利要求1所述的一种利用太阳能、风能的一体化充电桩,其特征在于:所述聚光罩(4)呈开口向上的碗状,所述聚光罩(4)的内表面由反光单元(401)组成,所述反光单元(401)为平面型镜面,所述聚光罩(4)的底部设有排水孔(402)。
5.根据权利要求1所述的一种利用太阳能、风能的一体化充电桩,其特征在于:所述支撑柱(2)顶端内设有空腔,所述空腔的顶部与底部均设有轴承(16),所述连接杆(12)固定在轴承(16)的内圈上。
6.根据权利要求1所述的一种利用太阳能、风能的一体化充电桩,其特征在于:所述连接杆(12)上固定有分别电性连接于风力发电机(1)正、负电极的上导电环(14)和下导电环(15),所述上导电环(14)和下导电环(15)上均设有滑槽(18)。
7.根据权利要求1所述的一种利用太阳能、风能的一体化充电桩,其特征在于:所述接线柱(13)设有两个,所述接线柱(13)的底端固定有电刷,所述电刷与上导电环(14)和下导电环(15)滑动连接。
8.根据权利要求1所述的一种利用太阳能、风能的一体化充电桩,其特征在于:所述连接杆(12)上固定有封盖(19),所述封盖(9)卡在支撑柱(2)顶部。
9.根据权利要求1所述的一种利用太阳能、风能的一体化充电桩,其特征在于:所述风力发电机(1)上固定有尾板(20)。
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