CNC vertical lathe technology is an important technology in the field of CNC machining. It is a method that uses computer numerical control technology to realize the automation of the vertical lathe machining process. In the process of CNC vertical lathe processing, the purpose of processing is achieved by inputting instructions to the CNC system. Next, we will introduce the instructions for CNC vertical lathe.
The first is the G code instruction. G code is an instruction language used to control machining motion trajectories. In the CNC vertical lathe process, the main function of G code instructions is to specify the contour shape of the workpiece to be processed. Among them, G00 is used to quickly move to the starting point of processing; G01 is used for linear interpolation processing; G02 and G03 are used for arc interpolation processing; G04 is used for delayed stop; G20 and G21 are used for foot or metric measurement unit selection; G28 and G29 are used for reference point or return to the starting point.
Next is the M code instruction. M code is an instruction related to machine tool processing and production control. In the CNC vertical lathe process, the main function of M code instructions is to control various auxiliary functions during the machining process. Among them, M03 and M04 are used to control the spindle rotation forward/reverse rotation; M05 is used to stop the spindle rotation; M08 and M09 are used to control the opening and closing of the cooling system; M41 is used to start the program; M99 is used to end the program; M98 and M97 Used for subroutine control.
Finally there are F code instructions. F code is an instruction used to control the feed speed. In the CNC vertical lathe process, the main function of the F code instruction is to specify the cutting feed speed. Among them, F represents the actual feed speed in millimeters/minutes or inches/minutes.
Generally speaking, the instructions for CNC vertical lathe include G code, M code and F code. These instructions are implemented through the CNC system, which improves processing efficiency and accuracy. This technology has been widely used in industries such as automobiles, aerospace, communications, electronics and machinery, and has become one of the important means of modern production and processing.





