Views: 0 Author: Site Editor Publish Time: 2022-08-05 Origin: Site
In the field of mechanical processing, CNC processing, also known as computer gong processing, is a CNC processing equipment. It follows the rules of mechanical processing and cutting, which is roughly the same as the processing technology of ordinary processing machine tools. Since the CNC machining center is an automated processing equipment that applies computer control technology to mechanical processing, it has the characteristics of high processing efficiency and high accuracy. The precision mechanical parts processing technology has its own unique features, the process is relatively complex, and the processing technology is The process is arranged in detail.
The CNC machining process includes the selection of tools, the determination of cutting parameters, and the design of tooling process routes. The CNC computer gong processing technology is the basic core of CNC programming. Only when the process is reasonable can high-efficiency and high-quality CNC programs be processed. The criteria for measuring the quality of the processing procedure are: minimum processing time, minimum tool loss and good processing results.
The CNC computer gong processing process is part of the overall processing process of parts, or even a process. During processing, it must cooperate with other front and rear processes to finally meet the assembly requirements of the overall robot or automation equipment accessories, so as to process qualified spare parts.
The computer gong processing process can be divided into rough processing, medium rough processing, semi-finishing processing and finishing processing. When rough machining, try to use a larger tool, and quickly cut off a large amount of workpiece materials during cutting as much as possible within the range of the machine power or the tool can withstand it. In order to prevent the cutting vibration during rough processing to loosen the workpiece, the table should be checked in time after thickening, and it is necessary to re-fit the tool. You can perform a finishing tool on the reference surface after rough processing to prepare for future calibration checks. For complex precision machining parts, since larger tools are used to open thickening, a large amount of margin remains at the corners. A tool smaller than when used for roughing processing must be used for secondary thickening or clearing of corners. When the processing area is relatively large, semi-finishing can be performed in order to reduce tool loss. In order to prevent overcutting, the above processing process must leave enough margin and finally carry out the finishing process. During the precision machining process, under normal circumstances, try to inspect it on the machine tool as much as possible, and after passing the qualification, remove it and prepare for the next piece of processing.