CN108360879A - 一种利用太阳能进行光电磁转换的无线充电地下停车系统 - Google Patents
一种利用太阳能进行光电磁转换的无线充电地下停车系统 Download PDFInfo
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Abstract
本发明公开了一种利用太阳能进行光电磁转换的无线充电地下停车系统,包括无线充电发射板(1),所述无线充电发射板(1)置于停车平台(6)的一侧内部;所述停车平台(6)通过光伏板支架(7)和光伏板(4)连接;所述光伏板支架(7)下固连有液压起重设备(8);所述无线充电发射板(1)通过导线连接高频逆变发生器(3);所述高频逆变发生器(3)通过导线连接控制端(2);所述光伏板(4)靠近所述高频逆变发生器(3)的一侧有供电触点(5)。本发明整合了有线充电桩和光伏发电的优点,摒弃了各自的弊端,实现了不需用电、安全用电、不占城市用地三大效果。
Description
技术领域
本发明属于无线充电技术领域,具体涉及一种利用太阳能进行光电磁转换的无线充电地下停车系统。
背景技术
目前国家大力普及新能源汽车,很多消费者购买了电动汽车后,没有地方充电和停车。城市用地本来就很拥挤,日渐增多的停车位无疑影响市容市貌,再者说建立充电桩一般要投入很大的一笔资金,充电桩的功率都很大,如果大力普及后势必给城市用电增加负担。现有技术一般都是通过布设有线充电桩来实现充电,虽然有线充电速度较快,但也有它的劣势,众所周知汽车充电电流非常大,而有线充电由于电缆外露,很容易发生短路或触电事故。无线充电技术日新月异,其不可比拟的优势就在于整个充电过程中不涉及金属导电器件,若配合光伏发电系统使用,将更彻底的节约电能,实现绿色出行。在充电时,将充电设施合理布局,不占用现有城市硬化路面,将有广阔的发展前景。
发明内容
本发明提供了一种利用太阳能进行光电磁转换的无线充电地下停车系统,解决现有新能源汽车发展遇到的停车难和充电难的技术问题。
本发明可通过以下技术方案实现:一种利用太阳能进行光电磁转换的无线充电地下停车系统,包括无线充电发射板1,所述无线充电发射板1置于停车平台6的一侧内部;所述停车平台6通过光伏板支架7和光伏板4连接;所述光伏板支架7下固连有液压起重设备8;所述液压起重设备8带有伸缩杆;所述光伏板4和地面9持平;所述无线充电发射板1通过导线连接高频逆变发生器3;所述高频逆变发生器3通过导线连接控制端2;所述光伏板4靠近所述高频逆变发生器3的一侧有供电触点5;所述高频逆变发生器3通过导线连接于所述供电触点5,并进一步和所述光伏板4连通。
优选的,所述无线充电发射板1面积大于等于汽车底盘无线充电接收板的面积。
优选的,所述地面9带有若干和大气连通的气窗,用以平衡系统的气压,所述气窗为高强度材料,能够承担汽车的重量。
优选的,所述气窗为高强度材料。
优选的,所述控制端2为触摸屏。
优选的,所述光伏板支架7采用高强度材料。
本发明有益的技术效果在于:
(1)本发明整合了有线充电桩和光伏发电的优点,摒弃了各自的弊端,将其设置在草坪绿地下面,实现了不需用电、安全用电、不占城市用地三大效果;
(2)下层的停车平台设置无线充电发射板,使用光伏板提供的电能,通过高频逆变发生器转换为无线电能进行传播,可对支持无线充电新能源汽车蓄能;
(3)停车位设计在地表以下,相当于一个小型车库,充电过程中能有效防止车辆被盗、损毁、划伤或者车内贵重财物的丢失。
附图说明
图1为本发明结构图。
其中,无线充电发射板1,控制端2,高频逆变发生器3,光伏板4,供电触点5,停车平台6,光伏板支架7,液压起重设备8,地面9。
具体实施方式
下面结合附图及较佳实施例详细说明本发明的具体实施方式。
如图1所示,本发明提供了一种利用太阳能进行光电磁转换的无线充电地下停车系统,包括无线充电发射板1,所述无线充电发射板1置于停车平台6的一侧内部;所述停车平台6通过光伏板支架7和光伏板4连接;所述光伏板支架7下固连有液压起重设备8;所述液压起重设备8带有伸缩杆;所述光伏板4和地面9持平;所述无线充电发射板1通过导线连接高频逆变发生器3;所述高频逆变发生器3通过导线连接控制端2;所述光伏板4靠近所述高频逆变发生器3的一侧有供电触点5;所述高频逆变发生器3通过导线连接于所述供电触点5,并进一步和所述光伏板4连通。
所述无线充电发射板1面积等于汽车底盘无线充电接收板的面积。所述地面9带有若干和大气连通的气窗,用以平衡系统的气压,所述气窗为高强度材料,能够承担汽车的重量。所述控制端2为触摸屏。所述光伏板支架7采用高强度材料。
本发明为一座地下光伏停车位,分为上下两层,上层为所述光伏板4,与所述地面9齐平,下层所述停车平台6处于所述地面9以下;上层所述光伏板4大小与所述停车平台6相当且完全遮盖在其正上方;使用时,车主通过所述控制端2操作所述液压起重设备8将所述停车平台6升起至地表,然后将车辆驶入所述停车平台6,使得车载无线充电接收板和所述无线充电发射板1对齐,确认车辆停稳,再将所述液压起重设备8下降收回完成车辆的停放操作;此时位于所述光伏板4边缘的所述供电触点5恰好与所述高频逆变发生器3的输入连接端相接触,操作所述控制端2导通整个电路为汽车充电;所述光伏板4及所述高频逆变发生器3均为市面上常见的设备,采用硅片做成,受到太阳的照射后,其中的正电荷向一极移动,负电荷向另一极移动,这样在两极之间就形成了电势差——电压,把两极通过所述供电触点5向所述高频逆变发生器3输出直流电,经所述高频逆变发生器3转化成20KHz-35KHz的高频交流电并输入给所述无线充电发射板1,该领域技术人员应该熟知其原理;所述充电桩1与所述逆变器3采用导线连接,其规格配置均为市面上常见的设备,该领域技术人员应该熟知其原理;所述光伏板支架7固定在所述停车平台6边缘,不影响车辆的正常驶入驶出;所述停车平台6采用整块高强度钢板可保证3吨以内的小型车辆安全稳妥停放;所述液压升降设备8以及伸缩杆与下层停车台底部刚性连接,可托举8吨的重量自由起落,为起重设备技术领域内技术人员所熟知的结构。
虽然以上描述了本发明的具体实施方式,但是本领域的技术人员应当理解,这些仅是举例说明,在不背离本发明的原理和实质的前提下,可以对这些实施方式做出多种变更或修改,因此,本发明的保护范围由所附权利要求书限定。
Claims (6)
1.一种利用太阳能进行光电磁转换的无线充电地下停车系统,其特征在于,包括无线充电发射板(1),所述无线充电发射板(1)置于停车平台(6)的一侧内部;所述停车平台(6)通过光伏板支架(7)和光伏板(4)连接;所述光伏板支架(7)下固连有液压起重设备(8);所述液压起重设备(8)带有伸缩杆;所述光伏板(4)和地面(9)持平;所述无线充电发射板(1)通过导线连接高频逆变发生器(3);所述高频逆变发生器(3)通过导线连接控制端(2);所述光伏板(4)靠近所述高频逆变发生器(3)的一侧有供电触点(5);所述高频逆变发生器(3)通过导线连接于所述供电触点(5),并进一步和所述光伏板(4)连通。
2.根据权利要求1所述的一种利用太阳能进行光电磁转换的无线充电地下停车系统,其特征在于,所述无线充电发射板(1)面积大于等于汽车底盘无线充电接收板的面积。
3.根据权利要求1所述的一种利用太阳能进行光电磁转换的无线充电地下停车系统,其特征在于,所述地面(9)带有若干和大气连通的气窗。
4.根据权利要求3所述的一种利用太阳能进行光电磁转换的无线充电地下停车系统,其特征在于,所述气窗为高强度材料。
5.根据权利要求1所述的一种利用太阳能进行光电磁转换的无线充电地下停车系统,其特征在于,所述控制端(2)为触摸屏。
6.根据权利要求1~5任一项所述的一种利用太阳能进行光电磁转换的无线充电地下停车系统,其特征在于,所述光伏板支架(7)采用高强度材料。
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CN203008448U (zh) * | 2012-11-26 | 2013-06-19 | 西安正昌电子有限责任公司 | 一种太阳能发电的充电式停车位 |
CN103835541A (zh) * | 2012-11-26 | 2014-06-04 | 西安正昌电子有限责任公司 | 一种太阳能发电的充电式停车位 |
CN107176054A (zh) * | 2017-06-29 | 2017-09-19 | 安徽先能新能源科技股份有限公司 | 一种立体车库充电桩系统及其实现方法 |
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CN203008448U (zh) * | 2012-11-26 | 2013-06-19 | 西安正昌电子有限责任公司 | 一种太阳能发电的充电式停车位 |
CN103835541A (zh) * | 2012-11-26 | 2014-06-04 | 西安正昌电子有限责任公司 | 一种太阳能发电的充电式停车位 |
CN107176054A (zh) * | 2017-06-29 | 2017-09-19 | 安徽先能新能源科技股份有限公司 | 一种立体车库充电桩系统及其实现方法 |
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