A JOINT WEARABLE STRUCTURAL REINFORCING DEVICE FOR VIBRATION SUPPRESSION IN ROBOTIC MILLING

IF 0.6 Q4 ENGINEERING, MECHANICAL

MM Science Journal Pub Date : 2023-11-15 DOI:10.17973/mmsj.2023_11_2023121

Shihao Xin, Fangyu Peng, Xiaowei Tang, Jiawei Wu, Zhaoyang Sun, Rong Yan

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引用次数: 0

Abstract

The structural vibration caused by poor rigidity is one of the main obstacles limiting the machining efficiency of robot milling. The existing vibration suppression strategies mainly focus on process parameter optimization, passive vibration absorption at the end and feedback control of joint motor. Although these strategies have certain vibration suppression effects, they cannot directly improve the structural rigidity of the robot. In this paper, a joint wearable structural reinforcing device (JWSRD) is proposed, which can achieve vibration suppression effect by improving the rigidity of the robot joints, fundamentally improve the processing ability of the robot, and ensure the processing stability. Firstly, the structure of the device is designed without affecting the processing flexibility. Secondly, the braking torque of the JWSRD is tested. Considering the feedback of joint braking torque, the vibration simulation model under harmonic excitation is derived. Finally, the offset mass experiments are carried out to verify the vibration suppression effect of the JWSRD. The results show that the JWSRD installed on the robot joint has the notable potential to enhance the structural rigidity, reduce the machining vibration and improve the machining efficiency.

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一种用于机器人铣削中抑制振动的关节可穿戴结构增强装置

刚性差引起的结构振动是制约机器人铣削加工效率的主要障碍之一。现有的振动抑制策略主要集中在工艺参数优化、末端被动吸振和关节电机反馈控制等方面。这些策略虽然具有一定的抑振效果，但不能直接提高机器人的结构刚度。本文提出了一种关节可穿戴结构增强装置(JWSRD)，通过提高机器人关节的刚度达到抑制振动的效果，从根本上提高了机器人的加工能力，保证了加工的稳定性。首先，在不影响加工灵活性的前提下对装置进行结构设计。其次，对JWSRD的制动力矩进行了测试。考虑关节制动力矩的反馈，推导了谐波激励下的振动仿真模型。最后进行了补偿质量实验，验证了JWSRD的减振效果。结果表明，安装在机器人关节上的JWSRD具有显著的提高结构刚度、减小加工振动和提高加工效率的潜力。

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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来源期刊

MM Science Journal ENGINEERING, MECHANICAL-

CiteScore

1.30

自引率

42.90%

发文量