冷轧带钢激光拼焊的焊缝在线检测研究

盛利民; 唐霞辉; 彭浩; 潘吉兴; 裴云; 朱海云

doi:10.7510/jgjs.issn.1001-3806.2015.04.001

冷轧带钢激光拼焊的焊缝在线检测研究

1.
华中科技大学光学与电子信息学院激光加工国家工程研究中心, 武汉 430074;
2.
武汉钢铁股份有限公司, 武汉 430074

作者简介: 盛利民(1990-),女,硕士研究生,现主要从事激光拼焊焊缝质量检测方面的研究。.

通讯作者: 唐霞辉, txh1116@hust.edu.cn ;

基金项目:
高等学校博士学科点专项科学研究基金资助项目(20110142110046)
中图分类号: TN249;TP274

Research of on-line inspection of laser welding seam quality of cold rolled strips

1.
National Engineering Research Center for Laser Processing, School of Optical and Electronic Information, Huazhong University of Science and Technology, Wuhan 430074, China;
2.
Wuhan Iron and Steel Corporation, Wuhan 430074, China

Corresponding author: TANG Xiahui, txh1116@hust.edu.cn ;

CLC number: TN249;TP274

摘要: 焊缝质量在线检测是冷轧带钢激光拼焊过程中的重要关键技术之一。为了解决武钢TRUMPF12000 轴快流激光拼焊设备在焊接过程中出现的错边、拼缝、焊缝形态等问题,采用3个传感器分别采集焊前间隙图像信息、焊接过程图像信息以及焊后焊缝图像信息,利用OTSU 自动计算图像阈值、运用投影矩阵的方法将图像坐标转换到工件坐标,编写程序提取图像特征点的方式建立焊缝质量在线检测系统,并以5m/min焊接速率对3mm厚冷轧板进行焊接实验,测量焊接试样焊缝宽度相对误差在4.42%左右。结果表明,焊缝质量检测系统可以计算出较为准确的焊缝宽度、焊缝错边量等信息。
- 激光技术 /
- 焊缝检测 /
- 传感器 /
- 图像处理 /
- 投影几何
Abstract: On-line inspection of seam quality is one of the most important key technologies in laser welding of cold rolled strips. In order to solve the welding problems of TRUMPF12000 fast-flow axial laser welding equipment used in WISCO, such as misalignment,seam and weld morphology, three sensors were adopted to acquire image information including gap images before welding, penetration images during welding, and seam images after welding and so on. OTSU operation was used to find the threshold automatically. Projective geometry was used to convert image coordinates to workspace coordinates. Codes were written to extract image features. On-line seam quality inspection system was founded. Experiments were performed to test the inspection accuracy of 3mm thickness cold steel at weld velocity of 5m/min. The relative error of seam width was about 4.42%. The results show that the seam inspection system can offer the accurate judgment comparatively.
- laser technique /
- weld inspection /
- sensor /
- image processing /
- projective geometry

[1]	FALLDORF SENSOR GMBH. Device for regulating the seam position during laser welding of butt joints carries out the regulation depending on the detected misalignment of molten bath to joint: DE 200810047140[P]. 2010-03-25.
[2]	GAO S Y, WU R M, CHEN W D, et al. Development status of laser welding process monitor and seam quality detection[J]. World Iron Steel, 2010,10(3): 51-54 (in Chinese).
[3]	de GRAAF M, AARTS R, JONKER B, et al. Real-time seam tracking for robotic laser welding using trajectory-based control[J]. Control Engineering Practice, 2010, 18(8): 944-953.
[4]	LIU Y, WANG G, WANG G D, et al. For machine vision image acquisition and image processing of weld[J].Computer Engineering and Applications, 2014, 50(3):135-140 (in Chinese).
[5]	HUO D, LU C X. X-ray imaging system for pipeline girth weld inspection based on CMOS video capture card[J].Instrument Technique and Sensor, 2013(12): 160-162 (in Chinese).
[6]	HUGO MIEBACH GMBH. Laser beam welding of sheet, comprises arranging butt joint edges of sheet to be welded, which are adjacent to each other, in impact distance, and fusing by focused laser beam, which produces uniform weld seam without height offset: DE 201110002023[P]. 2012-10-18.
[7]	THYSSENKRUPP STEEL AG. Laser beam welding EAD:CA2638007A[P]. 2010-06-22.
[8]	SUN H X, MA Z H, CHEN H Y, et al. High-precision centering control system design of laser welder[J]. Electric Welding Machine, 2013, 43(6): 16-21 (in Chinese).
[9]	VELARDE G, BINROTH C. Advances in data mining [M]. Berlin, Germany: Springer, 2010: 350-361.
[10]	ZHANG W J,XU M. Research on structured light visual inspection system for weld of tailored blanks laser welding[J]. Machinery Design ＆ Manufacture, 2011,241(3): 156-158 (in Chinese).
[11]	WU B, QIN Z Y. New approaches for the automatic selection of the optimal threshold in image binarization[J]. Journal of Institute of Surveying and Mapping, 2001, 18(4): 283-286 (in Chinese).
[12]	GRAAF M W. Sensor-guided robotic laser welding [M]. Amersfoort, Netherlands:University of Twente, 2007:11-95.
[13]	GAUTSCHI W. Numerical analysis [M]. New York, USA:Springer, 2011:159-232.
[14]	FAUGERAS O, LUONG Q T. The geometry of multiple images: the laws that govern the formation of multiple images of a scene and some of their applications [M].Cambridge MA, USA:MIT Press,2004:1-61.

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冷轧带钢激光拼焊的焊缝在线检测研究

作者简介: 盛利民(1990-),女,硕士研究生,现主要从事激光拼焊焊缝质量检测方面的研究。.

通讯作者: 唐霞辉, txh1116@hust.edu.cn ;

Research of on-line inspection of laser welding seam quality of cold rolled strips

Corresponding author: TANG Xiahui, txh1116@hust.edu.cn ;

计量

冷轧带钢激光拼焊的焊缝在线检测研究

通讯作者: 唐霞辉, txh1116@hust.edu.cn;

作者简介: 盛利民(1990-),女,硕士研究生,现主要从事激光拼焊焊缝质量检测方面的研究。

English Abstract

Research of on-line inspection of laser welding seam quality of cold rolled strips

Corresponding author: TANG Xiahui, txh1116@hust.edu.cn

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留言板

冷轧带钢激光拼焊的焊缝在线检测研究

作者简介: 盛利民(1990-),女,硕士研究生,现主要从事激光拼焊焊缝质量检测方面的研究。.

通讯作者: 唐霞辉, txh1116@hust.edu.cn ;

Research of on-line inspection of laser welding seam quality of cold rolled strips

Corresponding author: TANG Xiahui, txh1116@hust.edu.cn ;

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冷轧带钢激光拼焊的焊缝在线检测研究

通讯作者: 唐霞辉, txh1116@hust.edu.cn;

作者简介: 盛利民(1990-),女,硕士研究生,现主要从事激光拼焊焊缝质量检测方面的研究。

English Abstract

Research of on-line inspection of laser welding seam quality of cold rolled strips

Corresponding author: TANG Xiahui, txh1116@hust.edu.cn

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目录