Intelligent Parts Machining - Global Optimization and Decision Support
The data collection of precision machining has always been a challenge due to the differences in the parts processing industry. In fact, in recent years, this problem has become more prominent in the project of intelligent high-precision parts customization, causing a lot of obstacles. This is why intelligence has become a hot spot in precision machining.
Because intelligent precision machining solves the following problems: sharing part machining data model makes data objects simple, and can collect high-precision parts customization in a more convenient way; intelligent parts machining enables cross-platform systems to Conduct data interaction based on standards and specifications; the integration of information models in the precision machining industry provides data convenience in a more vertical direction.
Intelligent parts processing, from lean to several levels of intelligent operation, data collection, information processing, global utilization and the ultimate self-learning ability. Intelligent parts processing is based on the adjustment of a single control task, even if the multi-variable system is usually in a machine, a subsystem (such as material, mold opening process), and the global optimization of precision machining needs to be in a higher dimension, while At this time, the computing power and model ability have exceeded the current mechanism model.
Therefore, intelligent parts processing is a global optimization problem that must be based on lean operation, automation, and informatization. Through a more global customized service center for parts processing, the demand for the market, process design and auxiliary manufacturing, supply Chain (in addition to the supply chain in the traditional sense also includes smart grid and logistics), parts processing, and after-sales service, the entire synergy has formed an overall 'optimization search' based on equipment status, production orders, energy consumption, financial costs, etc. ', and give 'decision support' to precision machining.
