基于机器视觉的3D激光平面度测量系统的研究与应用*
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中图分类号: TN206TH124文献标识码: A国家标准学科分类代码: 52020

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*基金项目:国家自然科学基金(61603132,61203309)项目资助


Research and application of 3D laser flatness measurement system based on machine vision
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    摘要:为了满足现代工业非接触、高精度以及快速对微型物体进行平面度测量的需求,本文采用3D激光测量方法研制了基于机器视觉的3D激光平面度测量系统。首先研究3D激光轮廓仪的扫描测量原理及平面度测量原理,然后对激光线图像进行预处理,确保后期测量的准确性,其次对几何特征进行定位和坐标转换,再进行数据处理,获取物体测量部位的三维测量值。本系统为微型物体几何尺寸的三维非接触、高精度、多尺寸测量提供了测量装置系统和相应的测量手段。最后实物测量实验验证文中测量方法的准确性、快速性和有效性,测量精度可达01 μm。

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    Abstract:Noncontact, high precision and rapid flatness measurement of miniature objects is required in the modern industry. In this study, the 3D laser flatness measurement system based on machine vision is developed by the 3D laser measurement method. Firstly, the scanning measurement principle and the flatness measurement principle of the 3D laser profilometer are studied. The laser line image is preprocessed to enhance the accuracy of the later measurement. Secondly, the geometric feature is positioned and coordinate transformed. The data are processed again to acquire the threedimensional measurement of the object. The system provides a measuring device and method for threedimensional noncontact, highprecision, and multidimensional measurement of microobject geometry. Finally, the physical measurement experiments verify that the realized system has the advantages of accuracy, rapidity and effectiveness. The measurement accuracy can reach 01 μm.

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谭文,方淼,段峰,周博文,吴亮红.基于机器视觉的3D激光平面度测量系统的研究与应用*[J].仪器仪表学报,2020,41(1):241-249

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  • 在线发布日期: 2022-01-11
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