基于多读头的精密轴系角度测量误差自校正方法

International Symposium on Precision Engineering Measurement and Instrumentation Pub Date : 2019-03-07 DOI:10.1117/12.2511826

Run Zhang, Wenhui Bao, Huining Zhao, Hua-Kun Jia, Liandong Yu

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引用次数: 3

摘要

随着设备测量精度和生产效率要求的不断提高，采用外部参考标准的校准方法已不能满足质量和效率要求。为了解决铰接臂三坐标测量机在实际应用中的在线标定问题，有效提高其标定效率，建立了一种应用于铰接臂三坐标测量机关节的圆光栅角度传感器自标定系统。在对角度测量误差进行谐波分析的基础上，推导并分析了扫描头布局对标定结果的误差抑制原理，建立了扫描头的非均匀布局，消除了多阶、高阶谐波误差。仿真和测试结果表明，采用这种多读头布局形式的自校准方法可以在不增加扫描头数量的情况下有效减小测量角度误差，提高aacmm的校准效率和测量精度。

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Self-calibration method of precision shafting angle measurement error based on multiple reading heads

With the continuous improvement of equipment measurement accuracy and production efficiency requirements, calibration method with external reference standard can no longer meet the quality and efficiency requirements. In order to solve the online calibration problem and effectively improve the calibration efficiency of the Articulated Arm Coordinate Measuring Machines (AACMMs) in practical application, a self-calibration system of circular grating angle sensor which is applied to joints of the AACMMs was established. Based on the harmonic analysis of the angle measurement error, this paper deduces and analyzes the error suppression principle of the layout of the scanning heads on the calibration result, and establishes a non-uniform layout of the scanning heads to eliminate more and higher order harmonic errors. The simulation and test results show that the self-calibration method using this layout form of multiple reading heads can effectively reduce the measurement angle error without increasing the number of scanning heads, and improve the calibration efficiency and measurement accuracy of AACMMs.

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International Symposium on Precision Engineering Measurement and Instrumentation

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