The invention discloses an unmanned aerial vehicle nest, and relates to the technical field of unmanned aerial vehicles, the unmanned aerial vehicle nest comprises a battery replacement mechanism, an electric quantity monitoring system and a configuration system, the electric quantity monitoring system is used for obtaining the battery electric quantity of an unmanned aerial vehicle in real time, and when the battery electric quantity is smaller than or equal to a preset battery replacement threshold value, the configuration system is started; if yes, electric quantity information and position information of the unmanned aerial vehicle are sent to the configuration system, the battery changing mechanism comprises a nest body, a parking groove is formed in the top of the nest body, the battery changing mechanism is used for conducting battery changing operation on the unmanned aerial vehicle, and the configuration system is used for controlling the unmanned aerial vehicle to move to the parking groove according to the electric quantity information and the position information. The technical problems that in the prior art, a battery of an unmanned aerial vehicle is manually replaced for endurance of the unmanned aerial vehicle, the replaced battery needs to be taken out for charging, time and labor are wasted, and the working efficiency of the unmanned aerial vehicle is reduced are solved.
本发明公开了一种无人机机巢,涉及无人机技术领域,无人机机巢包括换电机构、电量监控系统和配置系统,电量监控系统,用于实时获取无人机的电池电量,当电池电量小于或等于预设的换电阈值时,则将无人机的电量信息和位置信息发送至配置系统,换电机构包括机巢本体,机巢本体顶部开设有停放槽,换电机构,用于对无人机进行换电操作,配置系统,用于根据电量信息和位置信息控制无人机移动至停放槽。解决现有技术主要通过人工对无人机电池进行更换为无人机进行续航,且更换后的电池需要取出充电,费时费力,降低了无人机的工作效率的技术问题。
Unmanned aerial vehicle nest
一种无人机机巢
2025-05-13
Patent
Electronic Resource
Chinese
IPC: | B64U |