摘要
随着零件设计及加工复杂化,导致零件的精密测量项目在一台仪器下难以完成全部测量任务。为准确且快速完成测量任务,需要研究并提出新的测量方案。本文通过对不同仪器的深入研究,并对回转类零件的结构特点进行分析,结合原有测量方案和各仪器的测量原理,设计固定工装,建立关联坐标系,编写并固化测量程序,实现了回转类零件在不同仪器间的快速转换测量,以及多仪器测量的并联生产。此方法既可以保证测量数据的准确性和可靠性,同时提高测量效率,为科研和生产提供了保障。
With the complexity of part design and processing, it is difficult to complete all measurement tasks under one instrument.In order to complete the measurement task accurately and quickly, it is necessary to study and put forward a new measurement scheme.Through the in-depth study of different instruments and the analysis of the structural characteristics of rotating parts, combined with the original measurement scheme and the measurement principle of each instrument, this paper designs fixed tooling, establishes the associated coordinate system, compiles and solidifies the measurement program, realizes the rapid conversion measurement of rotating parts between different instruments, and realizes the parallel production of multi instrument measurement.This method can not only ensure the accuracy and reliability of the measurement data, but also improve the measurement efficiency, which provides a guarantee for scientific research and production.
作者
徐海辉
陈亚欧
刘媛媛
于金洽
张涌禄
XU Haihui;CHEN Yaou;LIU Yuanyuan;YU Jinqia;ZHANG Yonglu
出处
《计量与测试技术》
2022年第3期49-53,共5页
Metrology & Measurement Technique
关键词
联机测量
工装快换
批量测量
坐标转换
on-line measurement
tooling quick change
batch measurement
coordinate transformation