摘要
通过专业三维扫描仪对某型机加油口盖零件采取数据点,在三维CAD软件CATIA中建立数学模型,再导入UG软件中进行刀路轨迹的设计,实现数控编程与加工,然后再在Vericut软件中进行机床仿真验证,完美的实现了无数字模型的复杂曲面类零件的数控加工,促进了专业厂原依靠仿形加工类工件的加工效率和产品质量的稳定。同时,为系统件厂逆向工程技术打下了基础,也为今后生产类似零件提供了可供参考的实践经验。
Through professional 3 D scanner for a certain type of machine filler cap parts adopt data points, in the 3D CAD software CATIA to establish mathematical model, then import the UG software for the knife road trajectory design, CNC programming and machining, and then validate the machine simulation in Verieut software, perfect digital model of NC machining complex curved surface parts has been achieved, promote the processing efficiency of professional factory original rely on eopying maehining parts and product quality stability. At the same time, lay the foundation for system parts plant reverse engineering technology, provide practical experience for future similar parts.
出处
《制造技术与机床》
北大核心
2015年第1期111-114,共4页
Manufacturing Technology & Machine Tool
