Design and performance analysis of different cambered wings for flapping-wing aerial vehicles based on wind tunnel test

Min Zhao, Wei He, Xiuyu He, Liang Zhang, Hongxue Zhao
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Abstract

Purpose Bionic flapping-wing aerial vehicles (FWAVs) mimic natural flyers to generate the lift and thrust, such as birds, bats and insects. As an important component of the FWAVs, the flapping wings are crucial for the flight performance. The aim of this paper is to study the effects of different wings on aerodynamic performance. Design/methodology/approach Inspired by the wings structure of birds, the authors design four cambered wings to analyze the effect of airfoils on the FWAVs aerodynamic performance. The authors design the motor-driven mechanism of flapping wings, and realize the control of flapping frequency. Combined with the wind tunnel equipment, the authors build the FWAVs force test platform to test the static and dynamic aerodynamic performance of different flapping wings under the state variables of flapping frequency, wind speed and inclined angle. Findings The results show that the aerodynamic performance of flapping wing with a camber of 20 mm is the best. Compared with flat wing, the average lift can be improved by 59.5%. Originality/value Different from the traditional flat wing design of FWAVs, different cambered flapping wings are given in this paper. The influence of airfoils on aerodynamic performance of FWAVs is analyzed and the optimal flapping wing is obtained.
基于风洞试验的拍翼飞行器不同凸翼的设计与性能分析
目的仿生拍翼飞行器(FWAVs)模仿鸟类、蝙蝠和昆虫等自然飞行器产生升力和推力。作为 FWAV 的重要组成部分,拍翼对飞行性能至关重要。本文旨在研究不同机翼对气动性能的影响。设计/方法/途径作者受鸟类机翼结构的启发,设计了四个凸翼,以分析翼面对 FWAV 空气动力性能的影响。作者设计了电机驱动的拍翼机构,并实现了拍翼频率的控制。结合风洞设备,作者搭建了 FWAV 受力测试平台,测试了不同拍翼在拍频、风速和倾角等状态变量下的静态和动态气动性能。与平翼相比,平均升力可提高 59.5%。分析了翼面对 FWAV 气动性能的影响,得到了最佳拍翼。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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