The utility model relates to a mobile phone cover with low cost, small heat output and convenient use, which comprises a plastic body with a mobile phone holding cavity, wherein the holding cavity is provided with a first and a second convex parts which are respectively opposite to the positive and negative input electrodes of the mobile phone, the surfaces of the first and the second convex parts are respectively covered with positive and negative conductive films, and the outer sides of the positive and negative conductive films are respectively extended to the lower side of the body and the outer body At the junction between the bottom and the outside of the positive and negative conductive film, respectively, are matched with the positive and negative output electrodes on the charging rack. When in use, the mobile phone is installed into the holding cavity of the body. Under the elastic force of the plastic body, the positive and negative conductive films are located on the surfaces of the first and second bulges, which respectively press the positive and negative input electrodes on the mobile phone, and then put the mobile phone cover after the mobile phone is installed into the charging rack. The power on the positive and negative output electrodes on the charging rack is respectively transmitted to the mobile phone through the positive and negative conductive films on the body The positive and negative input electrodes are sent to the mobile phone to charge the rechargeable battery.
【技术实现步骤摘要】
手机套
本技术涉及一种手机套,特别是涉及一种接触式无线充电器用的手机套。
技术介绍
目前,手机、移动电源等数码产品的充电方式主要分为线充和无线充二种,其中线充是在充电器与手机(或移动电源)之间用充电线连接,其优点是充电效率高,但缺点每次使用时必须将充电线末端的充电插头插入手机内,充电完毕后再拔出,使用不方便;无线充是为了去除充电时手机(或移动电源)与充电器之间的充电线而推出的充电方案,例如目前市面上较为流行的电磁感应(如QI标准)无线充电,其原理是在充电器内设置可以在附近几厘米范围内产生交变电磁场的发射线圈,在手机内设置接收线圈及整流、滤波、控制电路,充电时手机内的接收线圈受发射线圈产生的交变磁场的电磁感应而在接收线圈内产生电势,经整流、滤波后即可对手机内的电池进行充电。现有的这种手机电磁感应充电方案在使用时,虽然在充电器与手机之间无需充电线连接,但存在成本高、充电效率低、手机内置的接收线圈发热导致手机整体温升过高等缺点。
技术实现思路
本技术的目的是为了解决现有手机近距离电磁无线充电中存在的成本高、发热量大的问题,而提供一种成本低、发热量小、使用方便的接触式无线充电器用的手机套。本技术的目的是这样实现的:一种手机套,包括设有手机容置腔的塑料本体,所述容置腔内设有分别正对所述手机的正输入电极和负输入电极的第一凸起部和第二凸起部,所述第一凸起部和所述第二凸起部的表面分别覆盖有正导电薄膜和负导电薄膜,所述正、负导电薄膜的外侧分别延伸到所述本体下侧与所述本体外底部之间的交汇处,所述正、负导电薄膜 ...
【技术保护点】
1.一种手机套,包括设有手机容置腔的塑料本体,其特征在于所述容置腔内设有分别正对所述手机的正输入电极和负输入电极的第一凸起部和第二凸起部,所述第一凸起部和所述第二凸起部的表面分别覆盖有正导电薄膜和负导电薄膜,所述正、负导电薄膜的外侧分别延伸到所述本体下侧与所述本体外底部之间的交汇处,所述正、负导电薄膜的外侧分别与充电架上的正、负输出电极相配。/n
【技术特征摘要】
1.一种手机套,包括设有手机容置腔的塑料本体,其特征在于所述容置腔内设有分别正对所述手机的正输入电极和负输入电极的第一凸起部和第二凸起部,所述第一凸起部和所述第二凸起部的表面分别覆盖有正导电薄膜和负导电薄膜,所述正、负导电薄膜的外侧分别延伸到所述本体下侧与所述本体外底部之间的交汇处,所述正、负导电薄膜的外侧分别与充电架上的正、负输出电极相配。
2.根据权利要求1所述手机套,其特征在于所述正、负导电薄膜是电镀在所述本体表面的金属电镀层。
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