用于人机交互力控制的可连续调节的软化非线性刚度弹性机构

IF 4.5 1区 工程技术 Q1 ENGINEERING, MECHANICAL
Zhixin Tu , Haifeng Liu , Yihao Jiang , Tao Ye , Yuepeng Qian , Yuquan Leng , Jian S. Dai , Chenglong Fu
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引用次数: 0

摘要

人体增强机器人的人机交互在实现精确、稳健的交互力控制方面面临着相当大的挑战。本文提出了一种具有连续可调性的新型软化非线性弹性机构(SNEMA)来应对这一挑战。SNEMA 通过菱形对角线长度之间的非线性映射关系实现软化刚度行为。这种独特的刚度曲线具有低输出高刚度和高输出低刚度的特点,在输出力范围和力分辨率之间取得了平衡。此外,通过使用两个对立的线性弹簧,可实现对刚度曲线的连续、方便的调整,从而在不同的输出力范围内实现最佳的刚度匹配。为了验证刚度建模,并评估所开发的 SNEMA 的力跟踪和交互性能,我们进行了台架试验。实验结果表明,SNEMA 能够在人机交互中实现精确的力控制和良好的碰撞安全性。最后,在 Centaur 机器人上部署了所提出的 SNEMA,以展示其在实际应用中的优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Softening nonlinear-stiffness elastic mechanism with continuous adjustability for human–robot interaction force control

Human–robot interaction of human augmentation robots presents a considerable challenge in achieving accurate and robust interaction force control. This paper proposes a novel softening nonlinear elastic mechanism with continuous adjustability (SNEMA) to address this challenge. The SNEMA achieves softening stiffness behavior through a nonlinear mapping relationship between the lengths of the diamond diagonals. This unique stiffness profile, featuring high stiffness for low output and low stiffness for high output, strikes a balance between the output force range and force resolution. Moreover, the continuous and convenient adjustment of the stiffness profile is realized by utilizing two antagonistic linear springs, enabling optimal stiffness matching for different output force ranges. Bench tests were conducted to validate the stiffness modeling and evaluate the force tracking and interaction performance of the developed SNEMA. Experimental results demonstrate the capability of the SNEMA to achieve precise force control and good collision safety in human–robot interaction. The proposed SNEMA is finally deployed on the Centaur robot to demonstrate its advantages in practical application.

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来源期刊
Mechanism and Machine Theory
Mechanism and Machine Theory 工程技术-工程:机械
CiteScore
9.90
自引率
23.10%
发文量
450
审稿时长
20 days
期刊介绍: Mechanism and Machine Theory provides a medium of communication between engineers and scientists engaged in research and development within the fields of knowledge embraced by IFToMM, the International Federation for the Promotion of Mechanism and Machine Science, therefore affiliated with IFToMM as its official research journal. The main topics are: Design Theory and Methodology; Haptics and Human-Machine-Interfaces; Robotics, Mechatronics and Micro-Machines; Mechanisms, Mechanical Transmissions and Machines; Kinematics, Dynamics, and Control of Mechanical Systems; Applications to Bioengineering and Molecular Chemistry
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