通过对数控程序的碰撞和干涉检验,能够提高工件的加工表面质量,减少刀具的磨损。
It can improve the machining surface quality of the workpiece and reduce wear of the tool through checking collision and interference of nc programme.
本文介绍了JW-MPS的结构和主要算法,主要包括加工中心建模、碰撞和干涉检验、数控代码翻译和材料切除等。
The paper introduces the structure of JW MPS and main algorithms, including model construction of machining center, collision and interfere check, NC code translation, material removal etc.
数控加工仿真技术为验证数控程序的可靠性、防止干涉和碰撞的发生及预测加工过程提供了强有力的工具。
The simulation technology of nc process provides a powerful implement to judge the validity of nc codes, avoid the occurrence of interference and collision, and forecast the machining process.
应用推荐