摘要
以误差补偿技术的网络化应用为目的展开研究,选取SMART-CNC数控曲面磨床为研究对象,运用多体理论,建立了磨床的运动模型,获得了与精密刀具轨迹相对应的逆变刀具路线或逆变数控指令的求解方法,在此基础开发了基于网络的误差补偿软件,构建了网络化误差补偿服务系统。仿真试验结果从理论上证明了本文建模方法的正确性和网络化应用方案的可行性。
Web-based application system of geometric error compensation aims to broaden error compensation technology by using network. SMART-CNC machine tool has been chosen as the object of experiment. Based on the kinematics of multi-body system, the movement equation for SMART-CNC machine tool has been built. Furthermore, web-based error compensation system has been implemented. With the function of imitating, the practical cutter track and the ideal cutter path can be seen exactly superposed, which validates the web-based application system in theory.
出处
《微计算机信息》
北大核心
2006年第09S期221-222,163,共3页
Control & Automation
基金
国家自然科学基金资助项目(50005002)
北京市先进制造技术重点实验室资助项目
关键词
多体理论
数控磨床
误差补偿
网络化制造
Multi-body system ,Grinding machine , Error compensation , Network-based Manufacturing
