电池仓及无人飞行器制造技术

一种电池仓(10)及无人飞行器(200)，所述电池仓(10)包括第一壳体(11)、第二壳体(12)和密封件(13)，第一壳体(11)的周缘形成有抵持面(111)，第二壳体(12)的周缘设有配合面(121)、以及位于配合面(121)的槽位(122)，第二壳体(12)设有用于容纳电池的电池仓位(123)，密封件(13)收容在槽位(122)内，第一壳体(11)与第二壳体(12)通过抵持面(111)以及配合面(121)相配合，以共同形成一个用于容置电子元器件(14)的容置空间(15)，第一壳体(11)通过抵持面(111)将密封件(13)压紧在槽位(122)内，并使密封件(13)密封抵持面(111)与配合面(121)之间的间隙。在所述电池仓(10)中抵持面(111)将密封件压紧在槽位(122)内，使得第一壳体(11)与第二壳体(12)紧密贴合形成密封结构，使得电池仓(10)可以防水防尘，使无人飞行器(200)在特殊的应用环境下仍能正常使用。

Battery Warehouse and UAV

A battery bin (10) and an unmanned aerial vehicle (200) comprise a first case (11), a second case (12) and a sealing element (13), a backing surface (111) is formed around the first case (11), a matching surface (121) is arranged around the second case (12), a slot (122) is located on the matching surface (121), and a battery bin (123) and a sealing element (13) for holding batteries are arranged on the second case (12). In groove position (122), the first shell (11) and the second shell (12) cooperate through the contact surface (111) and the mating surface (121) to form a space (15) for holding electronic components (14). The first shell (11) compresses the sealing element (13) in the groove position (122) through the contact surface (111), and makes the gap between the sealing surface (111) and the mating surface (121) of the sealing element (13). The contact surface (111) in the battery bin (10) tightens the seals in the slot (122), so that the first shell (11) and the second shell (12) closely fit to form a sealing structure, so that the battery bin (10) can be waterproof and dust-proof, and the unmanned aerial vehicle (200) can still be used normally in special application environments.

【技术实现步骤摘要】
【国外来华专利技术】PCT国内申请，说明书已公开。

【技术保护点】
PCT国内申请，权利要求书已公开。

【技术特征摘要】
【国外来华专利技术】2017.02....

【专利技术属性】
技术研发人员：张永生，丘力，陈翔宇，刘煜程，梁贵彬，
申请(专利权)人：深圳市大疆创新科技有限公司，
类型：发明
国别省市：广东,44