Design and analysis of a novel variable stiffness joints with robots

Feng Wei, Lixiang Zhang, Yeming Zhang, Shuping Li, Ke Yao, Cunjian Li
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Abstract

This paper presents the design of a symmetric variable stiffness joint that employs worm gear and sliding helical transmissions to adjust the effective length of the leaf springs. Firstly, the design concept and working principle of the variable stiffness joint are presented, along with two different assembly methods. Secondly, the stiffness equations and characteristics of the variable stiffness joint are then derived and analyzed. Next, the dynamics of the variable stiffness joint are modeled and simulated visually using Simulink. Finally, a prototype of the variable stiffness joint is constructed and its stiffness characteristics are experimentally verified. The experimental results demonstrate that both assembly methods are capable of adjusting the stiffness and position of the joint within a certain range. This study contributes to the understanding and development of symmetric variable stiffness joints by presenting a comprehensive design, analysis, simulation, and experimental evaluation. The proposed joint has potential applications in various fields that require adaptability, adjustability, and safety.
新型可变刚度机器人关节的设计与分析
本文介绍了对称可变刚度接头的设计,该接头采用蜗轮蜗杆和滑动螺旋传动来调节板簧的有效长度。首先,介绍了变刚度接头的设计理念和工作原理,以及两种不同的装配方法。其次,推导并分析了变刚度接头的刚度方程和特性。接着,使用 Simulink 对可变刚度接头的动态进行建模和可视化仿真。最后,构建了可变刚度接头的原型,并通过实验验证了其刚度特性。实验结果表明,两种装配方法都能在一定范围内调节关节的刚度和位置。本研究通过全面的设计、分析、模拟和实验评估,为对称变刚度接头的理解和开发做出了贡献。所提出的关节有可能应用于需要适应性、可调节性和安全性的各个领域。
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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