论文部分内容阅读
前言随着通信电缆及电缆连接器的不断发展,对与其性能相关的机械另件的加工精度要求也越来越高。要提高机械另件的加工精度,必须提高机床的加工精度。我们对CM6125型车床进行了安装一测量系统的实验。该测量系统由SF1—10型数显表和周期为2毫米的直线式感应同步器组成。本文介绍了测量系统的结构原理及安装,并列出了实验结果。实验结果表明,机械另件的加工精度可控制在±10微米之内,
Preface With the continuous development of communication cables and cable connectors, the machining accuracy requirements of the mechanical parts related to their performance are also getting higher and higher. To improve the machining accuracy of the other parts of the machine, we must improve the machining accuracy of the machine tool. We conducted an experiment on a CM6125 lathe to install a measuring system. The measurement system consists of a SF1-10 digital display and a 2 mm linear induction synchronizer. This article describes the structure of the measurement system and installation principles, and lists the experimental results. The experimental results show that the processing accuracy of mechanical parts can be controlled within ± 10μm,