CN113890460A - 一种便于架设的离网光伏锂电池充电桩 - Google Patents
一种便于架设的离网光伏锂电池充电桩 Download PDFInfo
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Abstract
本发明涉及一种便于架设的离网光伏锂电池充电桩,包括电动拖车,电动支架系统,逆控箱体,充电箱体,可折叠太阳能电池板组件构成。所述充电箱体中包括充电插头,所述逆控箱体与充电箱体电连接进行充电。逆控箱体中设有无线通信模块与无线终端连接,可实现无线终端对各个部件的控制。通过本发明,可以极大便利离网充电桩的架设。
Description
技术领域
本发明属于光伏充电技术领域,特别涉及一种便于架设的离网光伏锂电池充电桩。
背景技术
电能是未来能源,因为它在更大程度上减少了化石燃料的使用。为了减少化石燃料的污染,发达国家和发展中国家都在鼓励使用电动汽车,特别是使用锂电池作为动力来源的电动车。尽管电动汽车对环境应该是更加友好的,但是这一点仍然遭受到了质疑。这是由于大多数电动汽车电池的能量来源仍然是自使用化石燃料供电的电网,因此尽管它没有直接利用化石燃料作为能量供给,但是它依然不是环保的。为了解决这一问题,利用太阳能为电动汽车的电池充电就成为了更好的替代方案。
现有的光伏充电桩已经四处可见了,但是它依然存在着很多问题,其中最重要的一个就是现有的光伏充电桩大多不便架设,尤其是现有技术中需要依靠人工手动架设,没有与通信以及计算机自动控制技术相结合,灵活性不强,便利性很差。
基于上述问题,目前亟需设计一种便于架设的离网光伏锂电池充电桩,来解决现在技术中存在的需要依靠人工手动架设,没有与通信以及计算机自动控制技术相结合,不能够自动架设,灵活性不强,便利性很差的技术问题。
发明内容
本发明提供一种便于架设的离网光伏锂电池充电桩,用于解决现有技术中需要依靠人工手动架设,没有与通信以及计算机自动控制技术相结合,不能够自动架设,灵活性不强,便利性很差的技术问题。
为了实现上述发明的目的,本发明提供了以下技术方案:一种便于架设的离网光伏锂电池充电桩,其特征在于,所述离网光伏锂电池充电桩包括电动拖车;电动支架系统;逆控箱体,所述逆控箱体中包括逆变器和控制器,所述控制器中设有无线通信模块可以无线终端连接;充电箱体以及可折叠太阳能电池板组件。
所述电动拖车为由轻质材料制成的矩形水平框架,左右两侧均设有两轮,其与矩形框架通过电机连接;前侧设有一拖车环,拖车环与框架主体通过一水平支臂连接;该水平支臂上设有一垂直支臂,该垂直支臂为一两段式可伸缩结构,可支于地面起固定作用;无线终端向控制器发送指令,可控制拖车前进或后退。
优选地,所述轻质材料为铝合金或碳纤维材料。
所述电动支架系统包括四条支臂,四条支臂的一端通过电动铰链安装于拖车框架四角处,在收起状态下,垂直于水平框架放置;在使用状态下,可手动放下支臂,手动调整每条支臂与地面的角度支撑于地面或通过无线终端向控制器发送指令,自动调节每条支臂与地面的角度使拖车框架与地面保持水平。
所述可折叠太阳能电池板组件包括支撑系统和八张太阳能电池板,所述支撑系统包括支撑主体,所述支撑主体为两个平行放置的的三角形支撑结构,所述三角形支撑结构的底部支臂焊接于拖车水平框架上,所述三角形支撑结构的侧臂包括内臂和外臂,外臂与一太阳能电池板固定连接,内臂与外臂之间通过电动转轴连接,无线终端向控制器发送指令转动转轴,控制外臂与内臂的开合角度,另一太阳能电池板与固定于外臂上的电池板通过电动铰链连接,无线终端向控制器发送控制指令可使该两电池板折叠或打开。
太阳能电池板的角度可随着阳光直射角度智能跟随以获取最大的充电效率。
所述无线通信模块为wifi模块或者5G模块,所述无线终端为智能手机,智能手机通过手机App向所述控制器发送指令,所述充电箱体包括充电插头,充电箱体与逆控箱体电连接,通过App控制所述充电插头的充电功率,App中设置有一键部署模式和一键回收模式,所述一键部署模式包括如下步骤:放下电动支架系统并自动调平,展开太阳能电池板,智能跟随阳光直射角度;所述一键回收模式包括如下步骤:折叠太阳能电池板到初始状态,折叠电动支架系统。
优选地,所述wifi模块使用802.11ax无线通信协议。
优选地,所述智能手机为使用鸿蒙操作系统的智能手机。
附图说明
在附图中,除非另外规定,否则贯穿多个附图相同的附图标记表示相同或相似的部件或元素。这些附图不一定是按照比例绘制的。应该理解,这些附图仅描绘了根据本发明公开的一些实施方式,而不应将其视为是对本发明范围的限制。
图1是本发明实施例的一结构示意图;
图2是本发明实施例的太阳能电池板位于初始状态时的正面视角示意图;
图3是本发明实施例的太阳能电池板某一完全展开状态时示意图。
图4是本发明实施例的太阳能电池板一完全展开状态时侧面视角示意图。
图5是本发明实施例的太阳能电池板另一完全展开状态时侧面视角示意图。
具体实施方式
需要说明的是,本发明中所有关于方向的说明(例如前后左右上下内外等)仅仅是对某一特殊姿势下各部件位置关系的说明,如果其姿势发生任何变化,其位置关系可能会相应变化。
在本发明中,除非另有明确的规定,本领域惯用的表述“连接”、“固定”需要做可以实施的最广方的理解,例如“连接”可以是通过任何连接结构连接在一起的方式,其可以使机械方式的连接,也可以是电连接。对于本领域技术人员而言,可以根据不同的情况理解上述表述在本发明中的指示。
为使本发明的目的、技术方案和优点更加清楚,下面将对本发明的技术方案进行详细的描述。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的前提下所得到的所有其它实施方式,都属于本发明所保护的范围。
为了实现上述发明的目的,本发明提供了以下技术方案:一种便于架设的离网光伏锂电池充电桩,其特征在于,所述离网光伏锂电池充电桩包括电动拖车1;电动支架系统2;逆控箱体4,所述逆控箱体中包括逆变器和控制器,所述控制器中设有无线通信模块可以无线终端连接;充电箱体3以及可折叠太阳能电池板组件5。
所述电动拖车为由轻质材料制成的矩形水平框架6,左右两侧均设有两轮,其与矩形框架通过电机连接;前侧设有一拖车环7,拖车环与框架主体通过一水平支臂8连接;该水平支臂上设有一垂直支臂9,该垂直支臂为一两段式可伸缩结构,可支于地面起固定作用;无线终端向控制器发送指令,可控制拖车前进或后退。
优选地,所述轻质材料为铝合金或碳纤维材料。
所述电动支架系统2包括四条支臂,每条支臂10的一端通过电动铰链11安装于拖车水平框架四角处,在收起状态下,垂直于水平框架放置;在使用状态下,可手动放下支臂,手动调整每条支臂与地面的角度支撑于地面或通过无线终端向控制器发送指令,自动调节每条支臂与地面的角度使拖车框架与地面保持水平。
所述可折叠太阳能电池板组件包括支撑系统和八张太阳能电池板12,所述支撑系统包括支撑主体13,所述支撑主体13为两个平行放置的的三角形支撑结构,所述三角形支撑结构的底部支臂焊接于拖车水平框架上6,所述三角形支撑结构的侧臂14包括内臂15和外臂16,外臂16与一太阳能电池板固定连接,内臂14与外臂15之间通过电动转轴连接,无线终端向控制器发送指令转动转轴,控制外臂与内臂的开合角度,另一太阳能电池板与固定于外臂上的电池板通过电动铰链连接,无线终端向控制器发送控制指令可使该两电池板折叠或打开。
如图3-图5所示,太阳能电池板的角度可随着阳光直射角度智能跟随以获取最大的充电效率。
所述无线通信模块为基于802.11ax无线通信协议的wifi模块或者5G模块,所述无线终端为智能手机,智能手机通过手机App向所述控制器发送指令,所述充电箱体包括充电插头,充电箱体与逆控箱体电连接,通过App控制所述充电插头的充电功率,App中设置有一键部署模式和一键回收模式,所述一键部署模式包括如下步骤:放下电动支架系统并自动调平,展开太阳能电池板,智能跟随阳光直射角度;所述一键回收模式包括如下步骤:折叠太阳能电池板到如图2所示的初始状态,折叠电动支架系统,四条支臂与水平框架垂直朝上放置。
以上所述,仅为本发明的具体实施方式,但本发明的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本发明记载的技术范围内,可轻易想到变化或替换,都应涵盖在本发明的保护范围之内。因此,本发明的保护范围应以所述权利要求的保护范围为准。
Claims (5)
1.一种便于架设的离网光伏锂电池充电桩,其特征在于,所述离网光伏锂电池充电桩包括电动拖车;电动支架系统;逆控箱体,所述逆控箱体中包括逆变器和控制器,所述控制器中设有无线通信模块可以无线终端连接;充电箱体以及可折叠太阳能电池板组件;
所述电动拖车为一轻质矩形水平框架,左右两侧均设有两轮,其与矩形框架通过电机连接;前侧设有一拖车环,拖车环与框架主体通过一水平支臂连接;该水平支臂上设有一垂直支臂,该垂直支臂为一两段式可伸缩结构,可支于地面起固定作用;无线终端向控制器发送指令,可控制拖车前进或后退;
所述电动支架系统包括四条支臂,四条支臂的一端通过电动铰链安装于拖车框架四角处,在收起状态下,垂直于水平框架放置;在使用状态下,可手动放下支臂,手动调整每条支臂与地面的角度支撑于地面或通过无线终端向控制器发送指令,自动调节每条支臂与地面的角度使拖车框架与地面保持水平;
所述可折叠太阳能电池板组件包括支撑系统和八张太阳能电池板,所述支撑系统包括支撑主体,所述支撑主体为两个平行放置的的三角形支撑结构,所述三角形支撑结构的底部支臂焊接于拖车水平框架上,所述三角形支撑结构的侧臂包括内臂和外臂,外臂与一太阳能电池板固定连接,内臂与外臂之间通过电动转轴连接,无线终端向控制器发送指令转动转轴,控制外臂与内臂的开合角度,另一太阳能电池板与固定于外臂上的电池板通过电动铰链连接,无线终端向控制器发送控制指令可使该两电池板折叠或打开。
2.根据权利要求1所述的一种便于架设的离网光伏锂电池充电桩,其特征在于:所述太阳能电池板的角度可随着阳光直射角度智能跟随以获取最大的充电效率。
3.根据权利要求2所述的一种便于架设的离网光伏锂电池充电桩,其特征在于:所述无线通信模块为wifi模块或者5G模块,所述无线终端为智能手机,智能手机通过手机App向所述控制器发送指令,所述充电箱体包括充电插头,充电箱体与逆控箱体电连接,通过App控制所述充电插头的充电功率,App中设置有一键部署模式和一键回收模式,所述一键部署模式包括如下步骤:放下电动支架系统并自动调平,展开太阳能电池板,智能跟随阳光直射角度;所述一键回收模式包括如下步骤:折叠太阳能电池板到初始状态,折叠电动支架系统。
4.根据权利要求3所述的一种便于架设的离网光伏锂电池充电桩,其特征在于:所述无线通信模块为wifi模块使用基于802.11ax的无线通信协议。
5.根据权利要求4所述的一种便于架设的离网光伏锂电池充电桩,其特征在于:所述智能手机为使用鸿蒙手机操作系统的智能手机。
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