In the machining industry, machining accuracy often determines the quality of processed parts to a large extent, and CNC precision machining itself is a very demanding machining method, which can achieve better results than traditional machining methods. There are many Other machining methods do not have the advantages, precision parts machining needs to produce high-quality and stable products, so how to improve the quality of CNC precision machining parts in the production process?
The staff must have rich experience in mechanical machining and excellent technology. Machining must have excellent technology to do well. As we all know, machining is the same delicate work. The production process is very testable. Even if it can be done well, it will take a long time. If you don’t make a good start at the beginning, it is easy to give up your previous efforts.
Secondly, whether the machining technology flow is standardized and excellent also determines whether the product is of high quality. This is also an indispensable reference point for us to formulate company rules and regulations. Both production and management must require a perfect process, and the process is for the production of perfect products.
Third, communication must be emphasized in the production process. Whether it is node time or when there is a problem, communication must be strengthened. Communication between machining plants and equipment manufacturers is an important condition for machining automation equipment parts. The machining personnel usually carry out the machining work according to the drawings, but more often, many craft places can be simplified and improved, which can reduce the cost and improve the efficiency.
In the production of rotating bearings, cnc precision machining parts is the last process after the workpiece is hardened. In addition to improving the crimp, waviness and roughness of the work piece, special requirements are also placed on the cross-sectional shape. This type has a decisive effect on the optimal load distribution of the bearing. At present, too much calculation method can be used to calculate the corresponding geometric shape of each side of the bearing for each load design. For example, the logarithmic shape needs to be produced. The technology is optimized and updated, and the advanced CNC grinder can be used for batch machining to calculate the cross-sectional shape.
CNC precision machining parts is a machining method that uses an abrasive tool composed of abrasives, namely whetstone, to oscillate the surface of the torsion workpiece with a prescribed pressure to remove the surface material of the workpiece. After super-precision, the surface of the workpiece produces parallel machining lines that cross each other at a certain angle. There are important factors for super finishing.