Design, fabrication, and experiments of an electromagnetic actuator for flapping wing micro air vehicles

2013 IEEE International Conference on Robotics and Automation Pub Date : 2013-05-06 DOI:10.1109/ICRA.2013.6630666

J. Roll, Bo Cheng, Xinyan Deng

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引用次数: 35

Abstract

The design and construction of a 2.6 gram electromagnetic actuator operated at resonance is presented. This design is based on wedge-shaped electromagnetic coil generating a driving torque on a rotor embedded with permanent magnets. Additional permanent magnets are used to create a virtual spring effect, supply a restoring torque to the rotor and adding nonlinear system stiffness. Flapping wing parameters were varied systematically to generate 16 unique wing profiles, from which wings were fabricated. Independent bench tests for the coil and spring magnets were used to modify analytical models of the actuator, derived in detail in a parallel study. Based on the equations of motion, estimates for the primary mode of resonance and the peak-peak stroke amplitude were determined using an approximate solution. Frequency response tests were conducted on the flapper using the set of test wings at varying supply voltages and spring configurations to verify the predicted resonate frequencies and amplitudes. Wing kinematics and mean lift measurements were performed for the flapper operating at resonance, producing a lift-to-weight ratio for the actuator of over one at 24V.

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扑翼微型飞行器电磁致动器的设计、制造与实验

介绍了一种2.6克谐振式电磁作动器的设计与结构。本设计是基于楔形电磁线圈产生驱动转矩的转子嵌入永磁体。额外的永磁体用于创建虚拟弹簧效应，为转子提供恢复扭矩并增加非线性系统刚度。系统地改变扑翼参数，生成16种独特的翼型，并以此为基础制作机翼。通过对线圈和弹簧磁体的独立台架试验，修改了在并行研究中详细导出的驱动器解析模型。在运动方程的基础上，利用近似解确定了主共振模式和峰峰行程幅度的估计。在不同的电源电压和弹簧配置下，使用一组试验翼对颤振进行频率响应测试，以验证预测的共振频率和幅值。机翼运动学和平均升力测量是对在共振下工作的襟翼进行的，在24V下，执行器的升力重量比超过1。

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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2013 IEEE International Conference on Robotics and Automation

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