KR100243505B1 - Cutting process system using inprocess measuring and its process - Google Patents

Abstract

According to the present invention, a cutting system using in-process measurement is composed of an in-process measuring device for measuring the motion error of the main shaft and a tool feed device for moving the tool by a small amount. The in-process measuring device consists of a sensor, a reference plane, and a calculation unit that determines the microfeed amount of the tool by using the sensor output obtained by the measurement.The tool feeder is a driver for moving the tool and a sensor for verifying the tool feed amount. And a control system.

Description

Cutting processing system using in-process measurement and its processing method

1 is a conceptual diagram of machining using in-process measurement

2 is a schematic diagram of an in-process measuring device according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: non-contact displacement meter 2: spindle

3: spindle housing 4: spindle bearing

5: cutting tool 6: drive for micro feed

7: C / V amplifier

The present invention relates to a cutting processing system using in-process measurement and a cutting processing method thereof, and more specifically, to measure the error of the main axis in the rotational movement to predict the main error of the next machining point and to move the tool bar The present invention relates to a compensating cutting system and a cutting method thereof.

According to the prior art, by determining the compensation amount for the reference surface on the basis of the machined surface, the plane cutting is possible, but when the surface cutting is required, the error accumulates and the degree of processing decreases. In addition, since the measurement reference point is placed on the same plane as the tool, there is a problem such as contamination due to cutting flow during actual machining.

Accordingly, an object of the present invention is to provide a cutting processing system and a cutting method thereof for compensating the rotational motion error due to the characteristics of the rotating mechanism through real-time prediction.

According to the present invention, the cutting system using the in-process measurement is composed of an in-process measuring device for measuring the motion error of the main shaft and a tool feed device for moving the tool by a small amount. The in-process measuring device consists of a sensor, a reference plane, and a calculation unit that determines the microfeed amount of the tool by using the sensor output obtained by the measurement.The tool feeder is a driver for moving the tool and a sensor for verifying the tool feed amount. And a control system.

In addition, the cutting method using the in-process measurement according to the present invention is to find the position of each part where the sensor is installed when the main axis is rotated from the sensor, the output of the sensor using a geometrical shape to calculate the main axis of the current point Estimating the motion error of the motor, predicting the main motion error of the next time point using the calculated main axis motion error and the previously obtained motion error of the main axis, and using the predicted motion error of the main axis at the tool position. Determining a tool feed amount, and inputting the determined tool feed amount as a command value of the tool control unit to cause the tool to follow the command value.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a schematic diagram of an in-process measuring apparatus according to the present invention, in which a plurality of non-contact displacement meters 3 are arranged on a spindle 1 and a spindle housing 2 of a cutting machine, such as a lathe. The cutting tool 4 is fastened to the front centerline of the main shaft 1 by a small feed driver 5 of the tool post. The non-contact displacement gauge 3, i.e., the sensor, is respectively connected to the C / V amplifier 7 as shown in FIG. 2, and the displacement amount enters the calculator 8 and is calculated. The feed amount obtained by the calculator is transferred to the driver 11 through the tool bar feed controller 9 and the amplifier 10 to feed the cutting tool 4. Reference numeral 6 is a spindle bearing.

Next, a cutting method using in-process measurement according to the present invention will be described.

First, when the main shaft 1 rotates, the position of each sensor, that is, each part in which a plurality of non-contacting displacement meters 3 are installed, is determined from the sensor 3. Then, the motion error of the main axis of the present point of time is calculated by calculating the output of the sensor 3 using the geometric shape. The main axis motion error of the next point is predicted using the calculated main axis motion error and the previously obtained main axis motion error. The tool feed amount at the tool position is determined using the predicted motion error of the spindle 1. The determined tool feed amount is input as a command value of the tool control unit so that the tool follows the command value.

In the present invention, a system using five sensors is proposed, but the amount of sensors can be reduced to three or two by geometric considerations. In addition, various drivers can be used, and closed-loop control can be selectively performed according to the characteristics of the driver. In addition, more precise machining can be achieved by reducing the motion error of the rotating spindle, which was previously difficult to overcome. In addition to cutting, it is also possible to perform ultra-precise measurements using the characteristics of microfeeds.

Claims (5)

In-process measuring device for measuring the movement error of the main shaft; And Cutting processing system using in-process measurement, characterized in that consisting of a tool feeder for moving a small amount of tools. The method of claim 1, wherein the in-process measuring device comprises a plurality of sensors for measuring the motion error of the main shaft, a measurement reference plane, and a calculation unit for determining the microfeed amount of the tool using the sensor output obtained by the measurement. Cutting processing system. The cutting system according to claim 1, wherein the tool feeder comprises a driver for moving the tool, a sensor for checking the tool feed amount, and a control system. The cutting system according to claim 2, wherein the sensor is a noncontact potentiometer. Finding the position of each part in which the sensor is installed from the sensor when the main shaft rotates; Calculating a motion error of the principal axis of the current point of view through the calculation of the output of the sensor using a geometric shape; Predicting the main axis motion error of the next time point using the calculated main axis motion error of the present time and the previously obtained motion error of the main axis; Determining a tool feed amount at the tool position using the predicted motion error of the spindle; And And a step of inputting the determined tool feed amount as a command value of the tool control unit to cause the tool to follow the command value.