摘要
随着汽车制造业的快速发展,车桥壳体作为汽车关键部件,其焊接质量直接影响汽车的整体性能与安全可靠性。本文通过优化车桥壳体机器人焊接工艺,提升焊接质量与生产效率,运用先进算法优化焊接路径,依据壳体结构和应力分布合理设定焊接顺序及精准的焊接轨迹,借助试验和模拟分析调控焊接工艺参数,并实时监测焊接过程,以期为汽车制造业的高效生产提供有力支持。
With the rapid development of the automobile manufacturing industry,the welding quality of the axle shell,as a key component of the automobile,directly affects the overall performance and safety reliability of the automobile.This study aims to optimize the vehicle bridge shell robot welding process,improve the welding quality and production efficiency,using advanced algorithm to optimize the welding path,according to the shell structure and stress distribution reasonable set welding sequence and accurate welding trajectory,with test and simulation analysis,and real-time monitoring of welding process,in order to provide strong support for the efficient production of automobile manufacturing industry.
作者
蓝江盛
LAN Jiangsheng(Fangsheng Cheqiao(Liuzhou)Co.,Ltd.,Liuzhou Guangxi 545005)
出处
《中国科技纵横》
2025年第14期115-117,共3页
China Science & Technology Overview
作者简介
蓝江盛(1996-),男,广西河池人,助理工程师,研究方向:车桥焊接工艺。
