KR0175555B1 - Cutting control method of work - Google Patents

Abstract

The present invention relates to a method for controlling cutting of a workpiece, and more particularly, a data input step of inputting data corresponding to the cutting depth of the workpiece and a conversion portion of the depth of cut during machining of a compound fixed cutting cycle, and the data input step Comparing the first cutting step of cutting the workpiece according to the cutting depth of the compound fixed cutting cycle when the input is completed, and the cutting cycle cutting depth and the amount of change of the cutting amount when the cutting process of the first cutting step is completed A cutting data variable step of varying the cutting amount of the cutting cycle by the cutting amount of the cutting amount if the cutting cycle cutting depth is larger than the conversion amount of the cutting amount in the comparing step; After the second cutting step of cutting the workpiece by the amount of cut and the cutting step of the second cutting step is completed, the comparison step is finished. It characterized by consisting of performing.

Therefore, the present invention has the effect of reducing the load on the workpiece, and the life of the bite than the conventional processing method by changing the cutting amount when cutting the workpiece according to the complex fixed cycle.

Description

Cutting control method of workpiece

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for controlling cutting of a workpiece, and more particularly, to a method for controlling cutting of a workpiece to reduce the load on the shaft and to extend the life of the bite when cutting the workpiece repeatedly in a multiple fixed stationary cycle.

1 is a view for explaining the operation process of the cutting control device of the existing workpiece, as shown in the cut-off amount during operation of the existing one cycle to the axis or bite to be processed according to the material or shape of the workpiece This can lead to excessive load, which shortens byte life. In other words, the workpiece is cut by maintaining the interval until the cutting process of the workpiece is completed in a compound fixed cycle having a gap of 7 mm, which is cut in one cycle. Therefore, there is no flexibility in the amount of cut in the workpiece.

Computerized Nurmerical Controller (CNC) machine tools can be processed even if the workpiece is made of even the same material, even if it has the same depth of cut, even if the workpiece is made of the same material.

In the conventional fixed cycle G71 machining method, once the depth of cut is determined, the amount cannot be reduced or increased, which causes another problem of reducing the life of the bite.

It is an object of the present invention to reduce the amount of infeed during fixed cycle G71 processing in order to rectify the conventional problems as described above, reducing the load on the workpiece than the conventional processing method and extending the life of the bite more than the conventional method. The present invention provides a method for correcting the depth of cut of a numerical control device for a machine tool.

In order to achieve the above object, the present invention provides a data input step of inputting data corresponding to the cutting depth and the amount of cut in the workpiece during the compound fixed cutting cycle; A first cutting step of cutting the workpiece according to the cutting depth of the fixed cutting cycle; a comparison step of comparing the cutting cycle cutting amount and the amount of change of the cutting amount when the cutting step of the first cutting step is completed; If the cutting cycle cutting depth is greater than the conversion amount of the cutting amount in the comparison step, the cutting data variable step of varying the cutting amount of the cutting cycle by the cutting amount conversion amount, and the cutting depth variable in the cutting data variable step After the second cutting step of cutting the workpiece and the cutting process of the second cutting step is completed, the step of repeating from the comparison step is performed. It is characterized by being carried.

1 is a view for explaining the operation of the cutting control device of the existing workpiece.

It is a block diagram which shows the structure of the cutting control apparatus of the workpiece | work by this invention.

3 is a view for explaining the operation of the cutting control device of the workpiece of FIG.

4 is a flowchart for explaining an operation process of the cutting control device of the workpiece shown in FIG.

Hereinafter, with reference to the accompanying drawings as follows.

Fig. 2 is a block diagram showing the configuration of the numerical control apparatus for machine tool according to the present invention. As shown in the drawing, a central control unit 201 for generating execution data for controlling all functions is referred to as a central processing unit (CPU). ), ROM (202, ROM) loaded with a system program for controlling all functions of the numerical control device, RAM (203, RAM) storing NC program and system data, cutting oil, tool change and spindle rotation. In the same operation machine 209, the input and output circuit 208 for inputting and outputting data between the machine 209 and the CPU 201, the motor 207 for driving each axis of the machine 209, the CPU 201 The position control unit 205 for controlling the driving position of the motor 207 by the provided position data, the servo circuit 206 for driving the motor 207, and the user's command are controlled by the position control unit 205. Manual input unit 204 for applying, numerical control field It consists of a display unit 210 for displaying various data generated in the operations.

The operation of the apparatus having the above configuration will be described in detail with reference to the flowchart shown in FIG. 4.

The manual input unit 204 inputs data on the cutting depth of the workpiece and the converted portion of the cutting amount (S10), and recognizes the input data by the CPU 201 to control the entire system to cut the workpiece. .

First, when the data is input (S10), the workpiece is cut (S20) according to the cutting depth of the compound fixed cutting cycle. When the cutting step (S20) is completed, the cutting cycle cutting amount is compared with the amount of the cut in the cut amount (S30). Thus, if the cutting cycle cutting depth is greater than the cut amount of the cut amount, the cut amount of the cutting cycle is varied by the cut amount conversion amount (S40). The workpiece is cut by the variable cutting depth (S50), and the cutting process of the workpiece is performed while varying the cutting depth by the conversion amount of the cut amount until the cutting process of the workpiece is completed according to the cutting depth.

That is, for example, as shown in FIG. 3, when the cutting depth is 7 mm through the manual input unit 204 and the conversion amount of the cutting amount is 0.2 mm, the workpiece is first cut by the cutting depth of 7 mm. Cutting, and then 6.8 mm, 6.6 mm,... The workpiece is cut by varying the depth of cut, such as 5.8 mm.

In cutting the workpiece, the cutting depth can be controlled step by step according to the user's intention, and can be controlled by step by step.

Then, the cutting depth is compared with the cutting amount (S30), and if the cutting depth is less than or equal to the conversion amount of the cutting amount, the inputted conventional method is adopted (S60).

If the cutting cutting amount is smaller than or equal to the conversion amount of the cutting amount, it is invalidated.

Therefore, as described above, the present invention has an effect of reducing the load on the workpiece and extending the life of the bite by changing the cutting amount when cutting the workpiece according to the complex fixed cycle.

Claims (3)

The data input step of inputting data corresponding to the cutting infeed amount of the workpiece and the amount of conversion of the cutting amount during the compound fixed cutting cycle, and when the data is input in the data input step, according to the cutting depth of the compound fixed cutting cycle. A first cutting step of cutting the workpiece, a comparison step of comparing the cutting cycle cutting amount and the conversion amount of the cutting amount when the cutting step of the first cutting step is completed; and the cutting cycle cutting cut amount in the comparing step A cutting data variable step of varying the cutting amount of the cutting cycle by the cutting amount conversion amount if the cutting amount is larger than the change amount of the cutting amount, and a second cutting step of cutting the workpiece by the cutting cut amount varied in the cutting data variable step; When the cutting process of the second cutting step is completed, the workpiece comprising the step of performing repeatedly from the comparison step Grinding control methods. The cutting control method according to claim 1, further comprising the step of cutting the workpiece by the input cutting cut amount if the cutting cut amount is less than or equal to the conversion amount of the cutting amount in the comparing step. The cutting control method according to claim 1, wherein, in the cutting data variable step, the cutting amount of the cutting amount is reduced or increased according to a user's intention to cut the workpiece.