论文部分内容阅读
微细电解加工技术目前已成为制作微纳米级金属结构的主要工艺方法之一。针对实际工业需求,开展了微细电解加工系统的设计和运动学仿真等方面的研究工作,重点讨论了微细电解加工的工艺特点,微细电解加工系统的硬件设计,控制系统设计并进行了必要的运动学分析。最后对系统的进给传动单元和主轴运动单元等结构进行了静态装配、动态干涉检查并进行了低速和抗干扰特性仿真,仿真结果表明该系统结构设计合理,其低速特性和抗干扰特性能够满足微细电解加工的技术要求。
Micro-electrolysis processing technology has now become the production of micro-nano-level metal structure of the main process. In view of the actual industrial demand, the research on the design and kinematics simulation of the micro-electrolysis processing system was carried out. The characteristics of the micro-electrolysis processing, the hardware design of the micro-electrolysis processing system, the control system design and the necessary movement Analysis. Finally, the system of feed drive unit and spindle movement unit and other structures were statically assembled, dynamic interference check and low-speed and anti-jamming simulation, the simulation results show that the system structure design is reasonable, and its low-speed characteristics and anti-jamming characteristics to meet Fine electrolytic processing of the technical requirements.