液体静压直线导轨专用磨合机研制方法

Research Method of Special Grinding-in Machine For Liquid Static Linear Guideway

为了提高液体静压直线导轨的磨合效率,提出一套针对液体静压直线导轨磨合的新式专用机研究方法。运用现代计算机仿真技术,对液体静压直线导轨的专用磨合机进行建模,动力学仿真分析,从而为提出一套磨合工艺方案提供设计依据;同时,根据具体的磨合工艺要求,设计一套专用磨合机的电气控制系统,以适应专用磨合机的自动化控制要求。通过上述的系统开发方法,能够开发出一台专用磨合机,使其能够实现负载加压,动力系统带动液体静压直线导轨的自动往复有载运动,提高磨合负载负载均匀性、表面粗糙度分布均匀性以及缩短磨合时间。

In order to improve the running efficiency of hydrostatic linear guideway,it puts forward a new method of how to make a special grinding-in machine for hydrostatic linear guideway. By the modern computer simulation technology, it is simulated and analyzed of a special grinding-in machine works. A set of grinding-in process is provided here. According tO the requirements oft he grinding-in process, the electrical control system for the special running-in machine is designed in order to achieve a aim of automation. Through the system development method mentioned above, it develops a special grinding-in machine, which can realize the load pressure. The power system drives the hydrostatic linear guideway and improves the load uniformity, suface roughness distribution uniformity and shortens the time of grinding-in.