The invention relates to a wing for enhancing the aerodynamic performance of a flapping wing based on bionic leading edge wing feathers, belongs to the technical field of aircraft design and manufacturing, solves the problem that the existing wing of the flapping wing is difficult to fly with high maneuverability and variable attitude, and can effectively improve the leading edge deflection of the wing and improve the flight performance of the flapping wing. The bionic front edge wing plume is introduced to the front edge of the curved wing body to form a flow direction vortex pair, and the evolution rule of an incoming flow boundary layer is improved; the separation phenomenon of the boundary layer at the large attack angle of the flapping wing is inhibited and/or improved through vortex-induced downwash and momentum transfer, and the aerodynamic performance of the flapping-wing unmanned aerial vehicle is improved; the bionic leading edge wing feather does not change the aerodynamic shape of an existing wing, hardware design can be completed only by adding a small-scale turbulent flow structure to the leading edge, the overall structure is simple, and maintenance is easy; and through free control of wing feather feature shapes, numbers and angles, the pneumatic lifting of the flapping-wing unmanned aerial vehicles with different flight working conditions and performance requirements is served.

    本发明涉及一种基于仿生前缘翼羽的增强扑翼气动性能的机翼,属于飞行器设计与制造技术领域,解决了扑翼现有机翼高机动、变姿态飞行难的问题,能够有效改善机翼前缘饶流,提高扑翼飞行性能。本发明通过在曲形翼身的前缘引入仿生前缘翼羽形成流向涡对,改善来流边界层的演变规律;通过涡流诱导的下洗流和动量转移抑制和/或改善边界层在扑翼大攻角时的分离现象,提升扑翼无人机的气动性能;仿生前缘翼羽不改变现有机翼气动外形,仅在前缘添加小尺度扰流结构即可完成硬件设计,整体结构简单、维护容易;通过对翼羽特征形状、数量、角度的自由控制,服务不同飞行工况及性能需求的扑翼无人机气动提升。


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    Titel :

    Wing for enhancing aerodynamic performance of flapping wing based on bionic leading edge wing feathers


    Weitere Titelangaben:

    一种基于仿生前缘翼羽的增强扑翼气动性能的机翼


    Beteiligte:
    REN GUANGHUI (Autor:in) / DONG LEI (Autor:in) / MAO XUERUI (Autor:in) / XIAO DANDAN (Autor:in) / YANG XIN (Autor:in) / ZHANG WENQIANG (Autor:in) / REN JIE (Autor:in) / YAO JIE (Autor:in) / LI KEREN (Autor:in)

    Erscheinungsdatum :

    04.03.2025


    Medientyp :

    Patent


    Format :

    Elektronische Ressource


    Sprache :

    Chinesisch


    Klassifikation :

    IPC:    B64U



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