机外调试装置的创新设计

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英文篇名：Innovative Design for External Debugging Device 作者：铁晓艳 ; 张振潮 ; 王虎强 ; 李斑虎 ; 侯亚新 英文作者：TIE Xiaoyan;ZHANG Zhenchao;WANG Huqiang;LI Banhu;HOU Yaxin;Luoyang Bearing Research Institute Co.,Ltd.;Henan Key Laboratory of High Performance Bearing Technology;Strategic Alliance for Technology Innovation in Rolling Bearing Industry; 关键词：滚动轴承 ; 磨床 ; 基准找正 ; 机外调试 英文关键词：rolling bearing;;grinder;;datum alignment;;external debugging 中文刊名：CUCW 英文刊名：Bearing 机构：洛阳轴承研究所有限公司;河南省高性能轴承技术重点实验室;滚动轴承产业技术创新战略联盟; 出版日期：2018-03-05 出版单位：轴承 年：2018 期：No.460 语种：中文; 页：CUCW201803006 页数：3 CN：03 ISSN：41-1148/TH 分类号：28-30

摘要

轴承磨床加工套圈沟道时,由于受机床结构空间和视野的限制,调试人员找正非常困难。运用空间分析原理,设计机外调试装置,将基准找正问题在机床外部解决,然后再将调试完成的支承座整体安装在机床上。经验证,机外调试装置不仅方便了调试人员找正,而且提高了基准找正的准确性和效率。
        Because of constrained structure space of grinder and visual field,it is very difficult for alignment by debugging personnel during grinding ring raceway of bearings. Therefore,the space analysis principle is used to design external debugging device,and the datum alignment problem is solved on external machine tool. Then the debugged supporting seat is installed integrally on grinder. After verification,the external debugging device is not only convenient for alignment by debugging personnel,but also improves accuracy and efficiency of datum alignment.

引文

[1]王世保,张合军.数控磨床的结构与原理[M].香港:中国国际文化出版社,2008:11-20.
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