Optics and Precision Engineering, Volume. 32, Issue 16, 2464(2024)
Surface flatness measurement of medium-thick plate based on Laser point cloud
In the metallurgical industry, medium and thick plate is one of the main products, and its flatness is an important index to evaluate the quality of steel plate. The pressure leveling field also relies on manual measurement, which cannot accurately characterize the flatness of the plate. In order to improve the accuracy and efficiency of detection, a flatness measurement method based on machine vision was proposed. Based on the high-precision three-dimensional visual scanning technology, combined with the Gaussian fitting algorithm, the Gaussian coefficient was used to construct the eigenvalue, and the mapping relationship between the Gaussian eigenvalue and the actual bending height of the plate was established. The reference plane was constructed, and the distance between the point cloud coordinate value and the reference plane was calculated. The RGB color model was used to draw the shape cloud diagram. On this basis, the position of the pressure leveling pad was given. Experimental results indicate that the calculation error of the proposed method is not greater than 0.3 mm, which can realize the measurement of the central bulge or the edge warping steel plate. At the same time, the shape cloud diagram reflects the shape distribution and the position of the plate. This measurement method can accurately measure the bending of medium-thick plates and provide data support for pressure leveling.
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Hao SHI, Gaoxu DENG, Zhengnan LI, Rongjun WANG, Lidong MA. Surface flatness measurement of medium-thick plate based on Laser point cloud[J]. Optics and Precision Engineering, 2024, 32(16): 2464
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Received: Apr. 18, 2024
Accepted: --
Published Online: Nov. 18, 2024
The Author Email: MA Lidong (mald@tyust.edu.cn)