The invention relates to the technical field of unmanned aerial vehicle charging, in particular to an unmanned aerial vehicle temporary stop charging method and device applied to an AI intelligent integrated rod, the charging device comprises an electric energy transmitting module and an electric energy receiving module which are arranged at the top of the integrated rod and the bottom of an unmanned aerial vehicle respectively, and the whole charging device is easy to install and maintain through modular design. The complete and efficient automatic charging process is formed through tight connection of the execution steps of communication establishment, landing adjustment, cover shell downward movement, cabin door opening, electric energy transmitting module upward movement, charging starting and the like, manual intervention is not needed, and the charging process can be monitored and controlled in real time. The charging device is integrated in the AI intelligent integrated rod, accurate parking and safe charging of the unmanned aerial vehicle are achieved through intelligent management and automatic control, the application scene of the unmanned aerial vehicle is greatly improved, the unmanned aerial vehicle does not need to return to a fixed charging station, the unmanned aerial vehicle can be charged at any AI intelligent integrated rod, and the charging efficiency is improved. And the operation flexibility and the cruising ability of the unmanned aerial vehicle are enhanced.

    本发明涉及无人机充电技术领域,尤其涉及应用于AI智慧集成杆的无人飞机临停充电方法及装置,充电装置包括分别设置于集成杆顶部和无人机底部的电能发射模块和电能接收模块,模块化设计使得整个充电装置易于安装和维护。通过建立通信、调整降落、罩壳下移、舱门打开、电能发射模块上移、开启充电等执行步骤紧密相连,构成完整、高效的自动化充电流程,无需人工干预,还能实时监测和控制充电过程。充电装置集合在AI智慧集成杆中,通过智能化的管理和自动化控制,实现了无人机的精准停靠与安全充电,极大提高了无人机的应用场景,使无人机无需返回固定的充电站,可以在任一AI智慧集成杆处进行充电,增强了无人机的作业灵活性和续航能力。


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    Title :

    Unmanned aerial vehicle temporary stop charging method and device applied to AI intelligent integrated rod


    Additional title:

    应用于AI智慧集成杆的无人飞机临停充电方法及装置


    Contributors:
    PENG YING (author) / DING YOUJUN (author)

    Publication date :

    2025-02-14


    Type of media :

    Patent


    Type of material :

    Electronic Resource


    Language :

    Chinese


    Classification :

    IPC:    B64U / B60L PROPULSION OF ELECTRICALLY-PROPELLED VEHICLES , Antrieb von elektrisch angetriebenen Fahrzeugen



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