The invention belongs to the field of unmanned aerial vehicle manufacturing, and particularly relates to an integrally-formed unmanned aerial vehicle control surface structure and a machining method thereof and an unmanned aerial vehicle. The integrally-formed unmanned aerial vehicle control surface structure comprises a wing surface and a control surface which are integrally formed, one side of the control surface is connected with the wing surface through a hinge belt laid during forming, and the other side of the control surface is connected with the wing surface through a hinge belt laid during forming; the wing surfaces and the control surfaces of the unmanned aerial vehicle are integrally formed together, the control surfaces do not need to be manufactured independently, an additional hinge mechanism and an additional mounting process of the hinge mechanism are not needed, the number of parts can be greatly reduced, and the manufacturing and mounting procedures of the control surfaces and the hinge mechanism are omitted. Compared with an independent forming process of a conventional airfoil, the control surface structure is simple in manufacturing process, and the manufacturing cost is reduced. Besides, the wing surface and the control surface are connected by independently laying the hinge belt, so that the connection strength and the rotation smoothness of the wing surface and the control surface are ensured on the premise of not limiting a forming material.

    本发明属于无人机制造领域,具体是涉及到一种整体成型的无人机舵面结构及其加工方法及无人机,其中,整体成型的无人机舵面结构,包括翼面和舵面,所述翼面和舵面一体成型,所述舵面一侧通过成型时铺设的铰链带与翼面连接,成型后舵面与翼面连接处去除成型材料形成间隔,本发明中无人机的翼面和舵面整体一同成型,无需单独制作舵面,且无需额外的铰链机构及其安装工艺,可以极大的减少零部件数量,省略舵面以及铰链机构的制造及安装工序。相对于常规翼面的单独成型工艺而言,本舵面结构制作工艺简单,降低制作成本。另外,通过单独铺设铰链带连接翼面和舵面,在不限定成型材质的前提下,保证翼面和舵面的连接强度以及转动流畅性。


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    Title :

    Integrally-formed unmanned aerial vehicle control surface structure, machining method thereof and unmanned aerial vehicle


    Additional title:

    一种整体成型的无人机舵面结构及其加工方法及无人机


    Contributors:
    PENG BO (author) / QIAO ENXIN (author) / ZHANG BIN (author) / NING JIANGFAN (author)

    Publication date :

    2023-05-09


    Type of media :

    Patent


    Type of material :

    Electronic Resource


    Language :

    Chinese


    Classification :

    IPC:    B64C AEROPLANES , Flugzeuge / B29C Formen oder Verbinden von Kunststoffen , SHAPING OR JOINING OF PLASTICS



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