为了实现对光纤微加工过程的自动控制,在研究了157 nm超短波长激光和飞秒超短脉冲激光的工艺规划基础上,开发了超短激光微加工的数控自动编程系统,即人机交互界面。该编程系统可以自动生成数控指令代码,用于工作台以及激光的辅助控制。人机界面可以根据选择的加工形状,模拟仿真加工的全过程,并能预测加工结果,以提高加工效率。该系统能够满足不同光纤微加工的实际需求。 In order to realize automatic control of optical fiber micromachining process, based on the process planning of 157 nm ultrashort wavelength laser and femtosecond ultrashort pulse laser, a numerical control automatic programming system of ultrashort laser micromachining has been developed, namely the human-computer interaction interface . The programming system can automatically generate CNC instruction codes for workbench and auxiliary laser control. The man-machine interface can simulate the whole process of machining according to the machining shape selected, and can predict the machining result to improve the machining efficiency. The system can meet the actual needs of different optical fiber micromachining.