机械模具数控加工制造技术的作用和特点

1. Effectively improve mold productivity

CNC machining technology can leverage the advantages of high degree automation in the manufacturing of mechanical molds. Compared to traditional mechanical mold manufacturing models, CNC technology exhibits higher accuracy characteristics in the processing of mechanical molds and can also improve the precision of parts processed by mechanical molds. In CNC machining technology, microcomputers and digital information control panels are mainly used. This technology, as an operation center, can continuously improve the production efficiency of mechanical molds, especially in the cutting and manufacturing technology of parts, which can reduce the errors and deviations that may be caused by manual production operations.

2. Reduce production costs

The use of CNC control technology in the manufacturing process of mechanical molds can leverage the advantages of high automation, mainly reflected in the fact that there is no need for manual operation in the production process, which can save production costs, improve the utilization efficiency of human resources, and enhance the economic benefits for mechanical mold production enterprises. 另一方面, CNC control and processing technology can reduce the difficulty of manual operation in the production process. In the traditional mechanical mold manufacturing process, the production of products requires many different types of molds, which makes the production steps more complicated. At the same time, in the early stage of the establishment of New China, industrial production technology was not very developed, and the production of mechanical molds often required manual cutting manufacturing technology. For general mechanical molds, this manufacturing method can still cope. However, with the development of the times, people’s requirements for the production of mechanical molds are constantly increasing, and they are beginning to demand refined mold production. The complexity of parts is also constantly increasing. The traditional production technology of manual cutting cannot meet the accuracy requirements of quality control, and it is also easy to cause uncontrollable problems due to manual operation errors in the production process.