1. Simplify. Processing parts with messy shapes no longer requires very messy fixtures from now on. If you want to change the shape and scale of a part, there is no need to bother modifying the part processing program, which is suitable for new product development and modification.
2. The processing quality has greatly improved, with higher precision and high repeatability compared to ordinary machine tools.
3. Improved the production efficiency of multiple types and small batch production, reducing the time for production preparation, machine tool adjustment, and process inspection. The optimal cutting amount has increased compared to conventional processing, greatly shortening the processing time. The time for machine tool adjustment and process inspection has been reduced due to the use of optimal cutting quantities.
4. Better processing technology. Capable of processing messy surfaces and unobservable machining parts that cannot be processed by conventional methods. We have more than 30 three-axis, four axis, five axis, and gantry CNC Machining centers, which can process various high-precision and messy aluminum alloy prototypes, small batch aluminum parts, automotive components, military products, lighting parts, digital home appliances, etc.
5. Disorderly machined parts. CNC machining can result in messy appearances, but these appearances are difficult to handle using conventional methods. Computer aided design (CAD) software is used to create 3D designs of final components. After inputting it into the computer of the CNC machine tool, the machine tool can cut the product from the material to achieve accurate standards. It is easy to create components with messy shapes without spending too much time.
The quality of parts processing is very stable. Because computer programming software is used to control CNC drilling machines, once the design is input into this computer, the same parts can be produced with the same accuracy time and time again. No manual intervention is required during the CNC machining process, and stable quality parts can be produced. You can even regularly update and improve the software that powers these computers, and further improve consistency and reliability.