Insect-inspired thoracic mechanism with non-linear stiffness for flapping-wing micro air vehicles

机译：具有非线性刚度的昆虫激发胸廓机构，用于襟翼微型飞行器

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This paper presents the design, analysis and characterization of a compliant mechanism that saves power for flapping-wing micro-air vehicles (FWMAV). The compliant mechanism is shaped after the insect's flight thorax, which has integrated elastic hinges for energy storage. It shows a nonlinearly increasing stiffness, which slows the wings down rapidly toward the end of a wing stroke and reverses the wings quickly, just like the elastic radial stop in Dipteran insects. When used to drive a 10-cm wing span FWMAV, it saves power up to 31% in comparison to a conventional rigid-body flapping mechanism, which have no elastic storage capability.

机译：本文介绍了一种柔顺机构的设计，分析和表征，该机构可以为襟翼微型航空器（FWMAV）节省动力。顺应性机构是在昆虫的飞行胸部之后成型的，其具有集成的弹性铰链以存储能量。它显示出非线性增加的刚度，从而使机翼在机翼冲程结束时迅速减速，并使机翼迅速反转，就像Dipteran昆虫中的弹性径向止挡件一样。当用于驱动10厘米翼展FWMAV时，与没有弹性存储功能的常规刚体拍打机构相比，它可节省多达31％的功率。

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来源
《IEEE International Conference on Robotics & Automation》|2014年|3544-3549|共6页
会议地点 Hong Kong(HK)
作者
Chin, Yao-Wei; Goh, Joel Tian-Wei; Lau, Gih-Keong;
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School of Mechanical and Aerospace Engineering Nanyang Technological University Singapore 639798;

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Aerodynamics; Energy storage; Fasteners; Manufacturing processes; Polyimides; Springs; Thorax;

机译：空气动力学储能;紧固件；制造过程；聚酰亚胺;泉;胸部;

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专利

1. Effects of wing kinematics, corrugation, and clap-and-fling on aerodynamic efficiency of a hovering insect-inspired flapping-wing micro air vehicle [J] . Nguyen Khanh, Au Loan Thi Kim, Phan Hoang-Vu, Aerospace science and technology . 2021,第Nova期

机译：翼运动学，波纹和拍摄对悬停昆虫启发扑翼微空气车辆空气动力学效率的影响
2. Dissection of a Flexible Wing's Performance for Insect-Inspired Flapping-Wing Micro Air Vehicles [J] . Guang Lu, Jingping Yan, Zhisheng Zhang, Advanced Robotics: The International Journal of the Robotics Society of Japan . 2012,第5a6期

机译：昆虫启发式拍打翼微型飞机的柔性翼性能剖析
3. Hybrid Design and Performance Tests of a Hovering Insect-inspired Flapping-wing Micro Aerial Vehicle [J] . Quoc-Viet Nguyen, Woei Leong Chan, Marco Debiasi 仿生工程学报（英文版） . 2016,第002期

机译：盘旋昆虫启发扑翼翼微型飞行器的混合设计和性能测试
4. Insect-inspired thoracic mechanism with non-linear stiffness for flapping-wing micro air vehicles [C] . Chin Yao-Wei, Goh Joel Tian-Wei, Lau Gih-Keong IEEE International Conference on Robotics Automation . 2014

机译：昆虫启发胸型跨线刚度扑翼微空气
5. Design and analysis of a mechanism creating biaxial wing rotation for applications in flapping-wing air vehicles. [D] . McIntosh, Sean Harold. 2006

机译：设计和分析一种双翼机翼旋转机构，用于襟翼飞机。
6. Clap-and-fling mechanism in a hovering insect-like two-winged flapping-wing micro air vehicle [O] . Hoang Vu Phan, Thi Kim Loan Au, Hoon Cheol Park 2016

机译：盘旋在昆虫类双翼扑翼微型飞行器中的拍打机制
7. Experimental unsteady aerodynamics relevant to insect-inspired flapping-wing micro air vehicles [O] . Phillips N 2011

机译：与昆虫启发式扑翼微型飞机有关的实验性非定常空气动力学
8. Recent Progress Towards Developing an Insect-Inspired Flapping-Wing Micro Air Vehicle. [R] . Knowles, K., Ansari, S. A., Wilkins, P. C., 2007

机译：开发昆虫灵感扑翼微型飞行器的最新进展。

Insect-inspired thoracic mechanism with non-linear stiffness for flapping-wing micro air vehicles

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