Visual Measurement Method for Target Size Based on Torque

Hai Hua Li; Xiao Lin Chen

doi:10.4028/www.scientific.net/AMM.872.349

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 872Visual Measurement Method for Target Size Based on...

Visual Measurement Method for Target Size Based on Torque

Abstract:

With the rapid development of industrial technology, people have put forward higher requirements on the precision of process and assemblage for the part of the machine. In the process of accessory, a finish machining for the hole parts are generally necessary. There is greater impact on the processing accuracy because of the influence from the measurement methods, tool wear, lathe itself and other factors. In this paper, a regional centroid algorithm is proposed based on the visual measurement technology and mechanics principle. Firstly, the image of the workpiece is collected by the camera. And then the workpiece image is processed by the image processing technology. Thus, the torque of each pixel on the workpiece image contour relative to the center can be calculated. Finally, the detection and judgment of the part size is realized by the torque. Experiments show that this method can achieve accurate on-line detection for the inner diameter of the hole parts.

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Periodical:

Applied Mechanics and Materials (Volume 872)

Pages:

349-353

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.872.349

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Online since:

October 2017

Authors:

Hai Hua Li*, Xiao Lin Chen

Keywords:

Target Recognition, Torque, Visual Measurement

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* - Corresponding Author

References

[1] X. L. Qi, X. X. Zhao, Geometric Dimensions Measurement for Shaft Based on Machine Vision, Mod. Mach. Tool Automat. Manuf. Tech. 1 (2013) 65-67, 73.

Google Scholar

[2] P. S. Zhang, G. M. Zhang, Automatic Dimensions Measuring Method of Pore Part's Based on Machine Vision. Mech. Des. Manuf. 12 (2012) 139-141.

Google Scholar

[3] Z. G. Guo, J. J. Fan, Research on Optical Feature Recognition Technique of Micro Hole with Digital Image Processing. Tool Eng. 44(9) (2010) 102-105.

Google Scholar

[4] G. P. Gu, Y. T. Zhang, Y. Shao, Research on Image Measurement for Geometric Dimension of Regular Workpiece. Ind. Contr. Comput. 30(2) (2017) 96-98.

Google Scholar

[5] Y. Bi, Design and Implementation of a Three-Dimensional Visual Measurement. International Conference on MEC2013, 12 (2013) 960-963.

Google Scholar

[6] Y. Q. He, L. Li, Research for Part Size Inspection Base on Machine Vision. Coal Mine Mach. 31(6) (2010) 102-104.

Google Scholar

[7] X. P. Wen, H. H. Li, Measurement technology of firebrick based on monocular vision. Hebei J. Ind. Sci. Tech. 30(6) (2013) 429-432.

Google Scholar

[8] J. J. Hao, W. Lv, Y. W. Yu, Edge Detection for Precision Part. J. Sichuan Ordnance, 6 (2010) 64-66.

Google Scholar

[9] F. C. Wang, M. Zhang, L. M. Gong, Image Edge Detection Algorithm of Roberts Operator. J. Detect. Contr. 38(2) (2016) 88-92.

Google Scholar

[10] H. H. Li, L. Chen, Real-time Measurement for Dimension Based on Torque. Manuf. Tech. Mach. Tool, 594(1) (2012) 102-104.

Google Scholar