根据飞机翼身整体结构柔性装配中配套的五坐标自动制孔设备的功能特点,定制开发一套专用的离线编程与仿真系统。该系统通过对CATIAV5进行二次开发,定制一套人机交互接口,并开发相关算法处理程序,从而实现自动制孔系统的离线编程、制孔过程仿真功能。制孔区域规划、定位误差补偿修正技术等是自动制孔设备离线编程与仿真系统的关键技术,完善这两种技术是离线编程与仿真系统实用化的重要保证。 According to the functional characteristics of the five-coordinate automatic hole making equipment which is matched with the flexible structure of the whole wing structure of the aircraft wing, a dedicated off-line programming and simulation system is customized. The system through secondary development of CATIAV5, customization of a set of human-computer interaction interface, and the development of related algorithms processing program, so as to achieve automatic hole system programming, hole process simulation. Pore ​​area planning, positioning error compensation and correction techniques are the key technologies of automatic hole making equipment programming and simulation system offline. Perfection of these two technologies is an important guarantee for the practical application of offline programming and simulation system.