基于双线结构光传感器的埋弧焊缝跟踪系统研究
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摘要
针对船舶制造中长板对接焊缝的埋弧焊生产效率低、劳动强度大,且使用单线结构光传感器易受小车行走轨道安放的影响而产生导前误差,研制了一种基于双线结构光传感器的埋弧焊缝跟踪系统。基于结构光成像原理,建立了双线结构光传感器的数学模型,从中得到了焊缝轨迹空间位姿和焊缝偏差。设计了双线结构光传感器,并结合埋弧焊的焊接特点,设计了针对V形坡口焊缝的图像处理算法。介绍了焊缝跟踪系统的组成和工作原理,并对传感器和焊缝跟踪系统进行了试验验证。结果表明,传感器数学模型正确且检测精度较高,能够实现对焊缝轨迹空间位姿的检测,焊缝跟踪系统运行稳定,能够满足实际焊接要求。
In the shipbuilding process,SAW( submerged arc welding) is the main welding process for long plate butt joining,while the use of solo structure laser sensor will bring prepositive errors caused by rail installation. For these reasons,a new SAW seam tracking system was developed based on dual structure laser sensor. The mathematical model of dual structure laser sensor was established on the basis of structuredlight imaging principle. According to the mathematical model,the position and offset of welds were obtained. In connection with the characteristics of SAW,the dual structure laser sensor and image processing algorithm of V-groove weld were developed,and experiments were performed to testify the sensor and seam tracking system. The results show that the sensor can be used to detect the position and shape of welds,and the system can meet the need of practical welding perfectly.
In the shipbuilding process,SAW( submerged arc welding) is the main welding process for long plate butt joining,while the use of solo structure laser sensor will bring prepositive errors caused by rail installation. For these reasons,a new SAW seam tracking system was developed based on dual structure laser sensor. The mathematical model of dual structure laser sensor was established on the basis of structuredlight imaging principle. According to the mathematical model,the position and offset of welds were obtained. In connection with the characteristics of SAW,the dual structure laser sensor and image processing algorithm of V-groove weld were developed,and experiments were performed to testify the sensor and seam tracking system. The results show that the sensor can be used to detect the position and shape of welds,and the system can meet the need of practical welding perfectly.
引文
[1]徐小平,周飞霓,卢本.船舶钢结构焊接技术[M].北京:机械工业出版社,2010.
[2]许威,丁文斌,孙小磊,等.船体钢结构焊接的研究现状[J].机械制造文摘——焊接分册,2011(4):37-39.
[3]黄石生,王秀媛,高向东.埋弧焊焊缝跟踪控制系统及发展状况[J].焊接,2000(1):8-11.
[4]林嘉睿,吴斌,高鹏,等.线结构光视觉传感器二维机器人焊缝跟踪系统[J].光电子激光,2009,20(6):793-795.
[5]李原,徐德,李涛,等.一种基于激光结构光的焊缝跟踪视觉传感器[J].传感技术学报,2005,18(3):488-492.
[6]莫毅.基于结构光视觉传感器的弧焊机器人视觉检测方法及试验结果分析[M].热加工工艺,2017,46(1):238-242.
[7]毛志伟,周少玲,赵滨,等.双线激光传感焊枪定位与焊缝走向识别[J].焊接学报,2015,36(2):35-38.
[8]徐德,谭民,李原.机器人视觉测量与控制[M].北京:国防工业出版社,2016.
[9]郭亮,张华.船舱流水孔焊接机器人系统设计[J].焊接,2015(12):24-26.
[2]许威,丁文斌,孙小磊,等.船体钢结构焊接的研究现状[J].机械制造文摘——焊接分册,2011(4):37-39.
[3]黄石生,王秀媛,高向东.埋弧焊焊缝跟踪控制系统及发展状况[J].焊接,2000(1):8-11.
[4]林嘉睿,吴斌,高鹏,等.线结构光视觉传感器二维机器人焊缝跟踪系统[J].光电子激光,2009,20(6):793-795.
[5]李原,徐德,李涛,等.一种基于激光结构光的焊缝跟踪视觉传感器[J].传感技术学报,2005,18(3):488-492.
[6]莫毅.基于结构光视觉传感器的弧焊机器人视觉检测方法及试验结果分析[M].热加工工艺,2017,46(1):238-242.
[7]毛志伟,周少玲,赵滨,等.双线激光传感焊枪定位与焊缝走向识别[J].焊接学报,2015,36(2):35-38.
[8]徐德,谭民,李原.机器人视觉测量与控制[M].北京:国防工业出版社,2016.
[9]郭亮,张华.船舱流水孔焊接机器人系统设计[J].焊接,2015(12):24-26.
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