摘要
随着科技水平的不断提升,精密复杂曲面零件的应用越来越广泛。曲面驱动是复杂曲面零件加工的重要方法,驱动刀轨的规划直接关系到曲面物理特性的调控,应用五轴数控加工技术能够提升复杂曲面零件的加工质量。文章主要研究复杂曲面零件的五轴数控加工技术,以佛像这个复杂曲面零件为例,分析了曲面驱动刀轨规划、工装方案设计、加工策略以及试制加工过程。在实际加工过程中,技术人员应充分理解驱动刀轨规划思路与原理,在粗加工、精加工中完善刀轨设计,并进行试制加工。
With the continuous improvement of the level of science and technology,the application of precision complex curved parts is more and more extensive.Surface driving is an important method for machining complex surface parts.The planning of drive tool path is directly related to the control of surface physical characteristics.The application of five-axis computer numerical control machining technology can improve the machining quality of complex curved part.This paper mainly studies the five-axis computer numerical control machining technology of complex curved parts.Taking Buddha Statue as an example,it analyzes the tool path planning,tooling design,machining strategy and trial production process of the curved parts.In the actual processing process,the technical personnel should fully understand the planning ideas and principles of the drive tool rail,improve the design of the tool rail in rough machining and fine machining,and carry out trial production processing.
作者
张映故
ZHANG Yinggu(Liuzhou Vocational&Technical College,Liuzhou 545000)
出处
《现代制造技术与装备》
2024年第3期63-65,共3页
Modern Manufacturing Technology and Equipment
关键词
复杂曲面零件
五轴数控加工技术
曲面驱动
刀轨
粗加工
精加工
complex curved part
five-axis computer numerical control machining technology
surface driving
tool track
roughing
finishing
