Design of a multi-manipulator robot for relieving welding residual stress

Qing Liu, Chengjun Wang, Chenchen Shang, Jiabao Li
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Abstract

Purpose

The purpose of this study is to reduce the residual stress in welded workpieces, optimize the vibratory stress relief treatment process through the use of a vibration generator and enhance the durability and longevity of the workpiece by developing a vibratory stress relief robot that incorporates a multi-manipulator system.

Design/methodology/approach

The multi-manipulator combination work is designed so that each manipulator is deployed according to the requirements of vibration stress relief work. Each manipulator works independently and coordinates with others to achieve multi-dimensional vibratory stress relief of the workpiece. A two-degree-of-freedom mobile platform is designed to enable the transverse and longitudinal movement of the manipulator, expanding the working space of the robot. A small electromagnetic superharmonic vibration generator is designed to produce directional vibrations in any orientation. This design addresses the technical challenge of traditional vibration generators being bulky and unable to achieve directional vibrations.

Findings

The residual stress relief experiment demonstrates that the residual stress of the workpiece is reduced by approximately 73% through three-degree-of-freedom vibration. The multi-dimensional vibration effectively enhances the relief effect of residual stress, which is beneficial for improving the strength and service life of the workpiece.

Originality/value

A new multi-manipulator robot is proposed to alleviate the residual stress generated by workpiece welding by integrating vibratory stress relief with robotics. It is beneficial to reduce material and energy consumption while enhancing the strength and service life of the workpiece.

设计用于消除焊接残余应力的多机械手机器人
目的本研究的目的是通过开发一种集成了多机械手系统的振动去应力机器人,降低焊接工件的残余应力,通过使用振动发生器优化振动去应力处理过程,并提高工件的耐用性和使用寿命。每个机械手独立工作,并与其他机械手协调,以实现工件的多维振动应力消除。设计的两自由度移动平台可实现机械手的横向和纵向移动,扩大了机器人的工作空间。设计的小型电磁超谐波振动发生器可产生任意方向的定向振动。研究结果残余应力消除实验表明,通过三自由度振动,工件的残余应力降低了约 73%。多维振动有效增强了残余应力的释放效果,有利于提高工件的强度和使用寿命。 原创性/价值提出了一种新型多机械手机器人,通过将振动应力释放与机器人技术相结合,缓解工件焊接产生的残余应力。它有利于降低材料和能源消耗,同时提高工件的强度和使用寿命。
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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