摘要
内燃机配件腔槽多、曲面多、装配基准集中,对数控铣加工的精度一致性、加工节拍提出更高的要求。自动化编程技术在加工准备、刀路规划、参数优化、过程校核等方面的应用,提高了复杂特征识别效率、刀路生成质量、多轴加工稳定性。以特征识别智能化、复杂曲面多轴联动、工艺数据库驱动的参数自适应优化、仿真校核协同机制为研究内容,在典型配件加工场景的应用分析基础上,为提高内燃机配件加工自动化水平、制造可靠性提供技术支持。
Internal combustion engine parts have many cavities and grooves,many curved surfaces,and concentrated assembly benchmarks,which place higher requirements on the precision consistency and processing rhythm of CNC milling.The application of automated programming technology in processing preparation,tool path planning,parameter optimization,process verification,etc.has improved the efficiency of complex feature recognition,tool path generation quality,and multi-axis machining stability.The research content is based on intelligent feature recognition,complex surface multi-axis linkage,process database-driven parameter adaptive optimization,and simulation verification collaboration mechanism.Based on the application analysis of typical parts processing scenarios,it provides technical support for improving the automation level and manufacturing reliability of internal combustion engine parts processing.
作者
钟勇
Zhong Yong(Xuancheng Mechanical and Electronic Engineering School,Anhui Xuancheng 242200)
出处
《内燃机与配件》
2026年第1期118-120,共3页
Internal Combustion Engine & Parts
关键词
内燃机配件
数控铣削
自动化编程
特征识别
多轴加工
Internal combustion engine parts
CNC milling
Automated programming
Feature recognition
Multi-axis machining
