CN113715658A - 一种物联网充电桩 - Google Patents
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- B60L53/10—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles characterised by the energy transfer between the charging station and the vehicle
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- B60L53/00—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
- B60L53/10—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles characterised by the energy transfer between the charging station and the vehicle
- B60L53/14—Conductive energy transfer
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- B60L53/00—Methods of charging batteries, specially adapted for electric vehicles; Charging stations or on-board charging equipment therefor; Exchange of energy storage elements in electric vehicles
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Abstract
本发明公开了一种物联网充电桩,包括支撑板、防护板、斜台、充电桩、自动伸缩卷线盘和充电枪,通过设计将充电桩及充电枪设置于地面之下,儿童不轻易的拿取充电枪,避免出现安全事故,充电桩隐藏在地下,不会发生被碰撞破损等现象,充电枪线被完全保护,整体设备寿命变长。充电桩用时才升起,且通过在支撑板内形成密封空间,进不去雨水,也避免了直射阳光,降低设备的损坏速度,减少停车场的占地,避免了影响停车场正常进出的情况。使用时通过滚珠丝杠杆转动将充电枪提升至地表用于给新能源汽车充电,充电完成后自动退回至地面之下,通过二维码扫码进行支付和记录,方便快捷。
Description
技术领域
本发明涉及充电桩技术领域,具体为一种物联网充电桩。
背景技术
随着新能源汽车尤其是纯电动轿车的普及,为车辆充电成为日常行程,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,充电桩交互显示器能显示充电量、费用、充电时间等数据。
现有的充电桩充电枪大都安装在充电桩的外部,儿童能够很轻易的拿取充电枪,导致安全事故,充电桩不具备防护机构,容易发生移动倾斜等现象,使得充电枪线缆断裂,整体设备发生损坏的问题;目前在停车场,充电桩占地大,影响停车场正常进出,而且充电桩在室外常年风晒雨打,寿命短,损坏快。为此,提出一种物联网充电桩。
发明内容
本发明的目的在于提供一种物联网充电桩,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:一种物联网充电桩,包括支撑板、防护板、斜台、充电桩和充电枪,所述支撑板放置到地面上开的矩形凹槽内,所述支撑板上端盖设有防护板,所述防护板的一部分与地面贴合固定连接,另一部分悬置于支撑板的上方,防护板与支撑板形成的间隔之间放置斜台,防护板和斜台使支撑板内形成封闭空间;
支撑板的封闭空间内设置有充电桩和升降桩结构;升降桩结构上设置有充电枪,充电枪通过充电线与充电桩连接;
充电桩连接交互显示器,交互显示器设在防护板下侧。
优选的,所述升降桩结构包括升降底座和升降驱动机构,所述充电枪固定在升降底座上,升降底座一侧安装有使升降底座上下运动升降驱动机构,升降底座的上端设置有连接杆并固定连接,所述连接杆的上端与斜台底部固定连接,升降底座带动斜台升降。
优选的,所述升降驱动机构包括滚珠丝杠螺母和滚珠丝杠杆,升降底座远离充电枪的一侧下端设置有滚珠丝杠螺母并固定连接,所述滚珠丝杠螺母安装在滚珠丝杠杆上且滚珠丝杠副连接,滚珠丝杠杆安装在支撑板内侧壁上,且滚珠丝杠杆通过电机驱动。
优选的,所述充电桩固定安装在支撑板上,且充电桩外部包括防潮垫。
优选的,所述充电桩的一侧面上设置有自动伸缩卷线盘,所述自动伸缩卷线盘上缠绕充电线。
优选的,所述支撑板的底面上设置有导向轮,所述导向轮与充电线接触连接。
优选的,所述防护板的在交互显示器上方的位置设置有透明窗。
优选的,所述斜台的上方设有用于排水的排水槽。
优选的,所述交互显示器内设置有支付系统,交互显示器内显示支付二维码。
与现有技术相比,本发明的有益效果是:
本发明通过设计将充电桩及充电枪设置于地面之下,儿童不轻易的拿取充电枪,避免出现安全事故,充电桩隐藏在地下,不会发生被碰撞破损等现象,充电枪线被完全保护,整体设备寿命变长。
本发明将充电桩及充电枪设置地面之下,用时升起,且通过在支撑板内形成密封空间,进不去雨水,也避免了直射阳光,降低设备的损坏速度。
本发明将充电桩及充电枪设置地面之下,减少停车场的占地,避免了影响停车场正常进出的情况。
本发明使用时通过滚珠丝杠杆转动将充电枪提升至地表用于给新能源汽车充电,充电完成后自动退回至地面之下,通过二维码扫码进行支付和记录,方便快捷。
附图说明
图1为本发明一种物联网充电桩的外部结构示意图;
图2为本发明一种物联网充电桩的内部结构示意图。
图中:1、地面,2、支撑板,3、防护板,4、斜台,5、排水槽,6、充电桩,7、交互显示器,8、自动伸缩卷线盘,9、导向轮,10、充电线,11、升降底座,12、滚珠丝杠螺母,13、滚珠丝杠杆,14、充电枪,16、连接杆。
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。
请参阅图1-2,本发明提供一种技术方案:一种物联网充电桩,包括支撑板2、防护板3、斜台4、充电桩6和充电枪14,支撑板2放置到地面1上开的矩形凹槽内,支撑板2嵌入到地面内,具有保护充电桩6和充电枪14的作用,支撑板2上端盖设有防护板3,防护板3盖住支撑板2上方,具有防护作用,防护板3的一部分与地面1贴合固定连接,另一部分悬置于支撑板2的上方,防护板3与支撑板2形成的间隔之间放置斜台4,防护板3和斜台4使支撑板2内形成封闭空间,斜台4的上方设有用于排水的排水槽5,斜台4将升降桩结构上端进行防护,避免雨水进入,排水槽5可以将雨水引流到侧边,防止雨水积水。
支撑板2的封闭空间内设置有充电桩6和升降桩结构,充电桩6外部通过电线与外部电源连接,充电桩6为充电枪14供电,充电桩6固定安装在支撑板2上,且充电桩6外部包括防潮垫,防止充电桩6内进入水;升降桩结构上设置有充电枪14,充电枪14通过充电线10与充电桩6连接,充电枪14可以随升降桩结构升降,升出到地面上给电动车或电动汽车充电。升降桩结构包括升降底座11和升降驱动机构,充电枪14固定在升降底座11上,升降底座11带着充电枪14升降,升降底座11一侧安装有使升降底座11上下运动升降驱动机构,升降底座11的上端设置有连接杆16并固定连接,连接杆16的上端与斜台4底部固定连接,升降底座11带动斜台4升降;升降驱动机构包括滚珠丝杠螺母12和滚珠丝杠杆13,升降底座11远离充电枪14的一侧下端设置有滚珠丝杠螺母12并固定连接,滚珠丝杠螺母12安装在滚珠丝杠杆13上且滚珠丝杠副连接,滚珠丝杠杆13安装在支撑板2内侧壁上,且滚珠丝杠杆13通过电机驱动,通过电机的驱动,让滚珠丝杠螺母12带着升降底座11上升和下降。
充电桩6的一侧面上设置有自动伸缩卷线盘8,自动伸缩卷线盘8内安装有平面涡卷弹簧,自动伸缩卷线盘8上缠绕充电线10,当充电桩6升起的时候,拉着充电线10变长,当当充电桩6下降时,充电线10被卷在自动伸缩卷线盘8上,防止相互打结。支撑板2的底面上设置有导向轮9,导向轮9与充电线10接触连接,导向轮9防止充电线10与防护板3过度摩擦,表面被破坏。
充电桩6连接交互显示器7,交互显示器7设在防护板3下侧。防护板3的在交互显示器7上方的位置设置有透明窗,使得可以从防护板3外部就可以观察到交互显示器7上内容,也可以从交互显示器7外部进行支付。交互显示器7内设置有支付系统,交互显示器7内显示支付二维码,通过扫二维码可以进行支付。
本发明的工作原理为:使用时用户将车辆开至防护板3上的指定位置,扫描交互显示器7上的二维码选择服务类型,确定好服务类型后,滚珠丝杠杆13上的电机被驱动,使得滚珠丝杠螺母12带着升降底座11向上滑动,充电枪14从防护板3底部穿出,用户用充电枪14对电动汽车或电动车进行充电,充电过程完成后,滚珠丝杠杆13反向转动,将升降底座11退回至地面以下。
尽管已经示出和描述了本发明的实施例,对于本领域的普通技术人员而言,可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由所附权利要求及其等同物限定。
Claims (9)
1.一种物联网充电桩,其特征在于:包括支撑板(2)、防护板(3)、斜台(4)、充电桩(6)和充电枪(14),所述支撑板(2)放置到地面(1)上开的矩形凹槽内,所述支撑板(2)上端盖设有防护板(3),所述防护板(3)的一部分与地面(1)贴合固定连接,另一部分悬置于支撑板(2)的上方,防护板(3)与支撑板(2)形成的间隔之间放置斜台(4),防护板(3)和斜台(4)使支撑板(2)内形成封闭空间;
支撑板(2)的封闭空间内设置有充电桩(6)和升降桩结构;升降桩结构上设置有充电枪(14),充电枪(14)通过充电线(10)与充电桩(6)连接;
充电桩(6)连接交互显示器(7),交互显示器(7)设在防护板(3)下侧。
2.根据权利要求1所述的一种物联网充电桩,其特征在于:所述升降桩结构包括升降底座(11)和升降驱动机构,所述充电枪(14)固定在升降底座(11)上,升降底座(11)一侧安装有使升降底座(11)上下运动升降驱动机构,升降底座(11)的上端设置有连接杆(16)并固定连接,所述连接杆(16)的上端与斜台(4)底部固定连接,升降底座(11)带动斜台(4)升降。
3.根据权利要求2所述的一种物联网充电桩,其特征在于:所述升降驱动机构包括滚珠丝杠螺母(12)和滚珠丝杠杆(13),升降底座(11)远离充电枪(14)的一侧下端设置有滚珠丝杠螺母(12)并固定连接,所述滚珠丝杠螺母(12)安装在滚珠丝杠杆(13)上且滚珠丝杠副连接,滚珠丝杠杆(13)安装在支撑板(2)内侧壁上,且滚珠丝杠杆(13)通过电机驱动。
4.根据权利要求1所述的一种物联网充电桩,其特征在于:所述充电桩(6)固定安装在支撑板(2)上,且充电桩(6)外部包括防潮垫。
5.根据权利要求1所述的一种物联网充电桩,其特征在于:所述充电桩(6)的一侧面上设置有自动伸缩卷线盘(8),所述自动伸缩卷线盘(8)上缠绕充电线(10)。
6.根据权利要求5所述的一种物联网充电桩,其特征在于:所述支撑板(2)的底面上设置有导向轮(9),所述导向轮(9)与充电线(10)接触连接。
7.根据权利要求1所述的一种物联网充电桩,其特征在于:所述防护板(3)的在交互显示器(7)上方的位置设置有透明窗。
8.根据权利要求1所述的一种物联网充电桩,其特征在于:所述斜台(4)的上方设有用于排水的排水槽(5)。
9.根据权利要求7所述的一种物联网充电桩,其特征在于:所述交互显示器(7)内设置有支付系统,交互显示器(7)内显示支付二维码。
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