Precision stamping metal processing, parts manufacturing factory.
The increasing demand for mechanical component processing in industrial development, coupled with the continuous advancement and progress in the technology of mechanical component processing, has brought the focus to how to achieve automation in the process. So, how exactly is automation in mechanical component processing accomplished? Today, let's delve into it! Mechanical component processing utilizes CNC lathes for machining, also known as CNC machining. The main difference between CNC machining and conventional machine tool processing is that all actions in CNC machining are controlled by pre-designed programs from professional CNC processing factories.
In a manufacturing environment where parts are being processed by the thousands, high-precision machines must maintain the same level of accuracy on the 500th part as on the first. If there is significant variation in part sizes within a batch, this can lead to severe lack of precision, which can be truly painful for machine operators. That is to say, even if a machine is not accurate and its finished dimensions differ from the programmed dimensions (i.e., a hole is drilled out 3 inches from the edge instead of the programmed 0.2 inches), it can still be considered accurate if it can consistently and repeatedly program a large number of parts.
Precision mechanical parts processing technology can be categorized into casting, forging, stamping, welding, heat treatment, machining, assembly, and so on. It refers to the collective term for the entire numerical control machining and machine assembly process of the entire part, while other processes such as cleaning, inspection, equipment maintenance, oil seals, etc., are merely auxiliary processes. The turning method alters the surface properties of raw materials or semi-finished products, and the numerical control machining process is one of the main processes in the industry.
