KR100356440B1 - Grinder - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a polishing machine. The present invention relates to a polisher for rotating a polished material, a motor for providing a rotational force to the polisher, a position adjusting means for transferring the polisher up and down based on the polished material, and a polishing operation. A pressure sensor for measuring the pressure acting on the polisher, an actuator for minutely moving the polisher fixed by the position adjusting means, and a pressure measured by the pressure sensor during the polishing operation of the polisher and a predetermined pressure And control means for driving the actuator according to the comparison result.

Accordingly, by installing a pressure sensor on the upper part of the stator surrounding the motor and comparing the pressure measured by the pressure sensor with the initial input pressure, the polishing operation of the polisher is controlled by using an actuator, thereby making the polishing work more effective than before. Will be done.

Description

Polishing Machine {GRINDER}

The present invention relates to a polishing machine, and more particularly, to a polishing machine capable of finely controlling the pressure by measuring the precision polishing pressure in real time in order to control the precision polishing pressure during the precision polishing operation and reflecting it in the subsequent precision polishing operation. It is about.

The prior art US Pat. No. 4,545,153 describes a method for measuring the force on a pad using springs and straining gauges to control the force of a rotating precision polishing pad, US Pat. No. 4,999,954 Is a method of polishing using a gel (gel) is a method for measuring the force applied to the polisher using a strain gauge type sensor, US Patent 5,157,871 is a structure for measuring the polishing force with a load cell through an electromagnet.

Thus, conventionally, a load cell or a strain gauge is used as a method of measuring a precision polishing pressure, and a means of controlling pressure is used by using an electromagnet or a method of controlling air pressure. In the case of the processing method using a rotating polisher, a peak is required to contact the rotating part and the fixed part when measuring pressure, or a medium for transmitting a force is used, and power transmission elements such as pulleys and gears are used to rotate the polisher.

However, the pressure control means such as electromagnets or air, it is difficult to control the minute pressure fast response, and in the case of the processing method using a rotating polisher, it is difficult to accurately measure the pressure due to the vertex of the contact between the rotating part and the fixed part. In addition, the rotational motion of the polisher is affected by the power transmission element used to rotate the polisher, and thus it is difficult to obtain a constant speed rotation without vibration.

The present invention devised to solve such a problem provides a polishing machine that can finely control the pressure by measuring the precision polishing pressure in real time in order to control the precision polishing pressure during the precision polishing operation and reflecting it in the subsequent precision polishing operation The purpose is to.

1 is a cross-sectional view schematically showing a grinding machine according to a preferred embodiment of the present invention,

2 is a cross-sectional view schematically showing a grinder as another embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

2: Housing 4: Polisher

6,32: Rotary shaft of motor 8,30: Motor

10: Stator 12: Actuator

14: pressure sensor 16: drive shaft

18: control means 20: spring

22: Abrasive material 34: Power transmission means

In order to achieve the above object, the present invention provides a polisher for rotating a polished material while rotating, a motor for providing a rotational force to the polisher, a position adjusting means for vertically conveying the polisher with respect to the polished material, and a polishing operation. A pressure sensor for measuring the pressure acting on the polisher, an actuator for minutely moving the polisher fixed by the position adjusting means, and a pressure measured by the pressure sensor during the polishing operation of the polisher and a predetermined pressure And control means for driving the actuator according to the comparison result.

The pressure sensor and the actuator are preferably a piezo sensor and a piezo actuator, respectively.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a cross-sectional view schematically showing a polishing machine according to a preferred embodiment of the present invention.

2 is a housing.

The present invention is a polisher (4) for protruding from the housing (2) while rotating the polishing material, the motor (8), the polisher connected to the polisher (4) and the rotary shaft (6) to provide rotational force Position adjustment means 16 for vertically conveying (4) up and down on the basis of the workpiece, pressure sensor 14 for measuring the pressure acting on the polisher 4 during the polishing operation, position fixed by the position adjustment means 16 Actuator 12 which micromoves the polisher 4 and control which drives the actuator according to the result of comparing the pressure measured by the pressure sensor 14 and the preset pressure during the polishing operation of the polisher 4. Means 18.

Here, the motor includes a stator 10, and the actuator 12 finely adjusts and transports the stator 10 up and down so that a polishing operation is performed according to a predetermined pressure.

The position adjusting means 16 serves as a reference for raising and lowering the housing 2 in the vertical direction with respect to the abrasive 22 using a conventional linear motor and a ball screw.

The pressure sensor 14 and the actuator 12 use a piezo sensor and a piezo actuator, and the pressure sensor 14 senses the pressure applied to the polisher 4 and compares it with the pressure input to the control means 18. This allows the actuator 12 to adjust the transfer of the stator 10 up and down.

At this time, the support means for supporting the polisher 4 to move in the direction in which the actuator 12 is operated is installed between the stator 10 and the housing 2, preferably a diaphragm or a spring 20 can be used. have.

The polishing machine, which is a preferred embodiment of the present invention configured as described above, inputs the desired polishing pressure to the control means 18 by the operator.

Subsequently, the motor 8 is operated to rotate the rotating shaft 6 and to polish the workpiece 22 using the polisher 4. In this process, since the actuator 12 and the pressure sensor 14 are located directly above the stator 10 surrounding the motor 8, the pressure sensor 14 detects the pressure during polishing because accurate pressure measurement is possible. By comparing the size of the pressure input to the control means 18 and comparing the size, and operating the actuator 12 according to the result to transfer the stator 10 to the motor equipped with the polisher 4 ( 8) to the up and down direction.

At this time, the spring 20 connected to the stator 10 and the housing 2 is supported during the transfer of the stator 10.

In another embodiment, the same result can be obtained when the motor is mounted outside of the polishing machine. For reference, some symbols are the same as the symbols used in the above-described embodiment for the sake of smooth explanation.

That is, as shown in FIG. 2, the motor 30 is externally mounted to the housing 2, and the rotary shaft 6 of the motor 30 is mounted with the rotary shaft 32 and the polisher 4. It is connected by means 34 (eg a belt) to rotate the polisher 4.

When polishing is performed on the workpiece 22, the pressure is transmitted to the pressure sensor 14 through the actuator 12 located above the stator 10, and reacts in the same manner as the operation shown in the above-described embodiment. Polishing while adjusting.

As described above, the preferred embodiment of the present invention substantially solves the conventional problems.

In other words, the pressure control means such as electromagnets or air solved the problem that the polisher movement was unstable due to the inaccurate pressure measurement due to the quick response of the fine pressure control. The pressure sensor was mounted on the upper part of the stator surrounding the motor. By installing and comparing the pressure measured at the pressure sensor with the initial input pressure, the polishing operation of the polisher is controlled by using an actuator, and thus the polishing operation is more effective than in the related art.

Claims (2)

A polisher for rotating the polished material while rotating; A motor providing rotational force to the polisher; Position adjusting means for vertically conveying said polisher with respect to said abrasive material; A pressure sensor for measuring a pressure acting on the polisher during the polishing operation; An actuator for minutely moving the polisher, the position of which is fixed by the position adjusting means; And And a control means for driving the actuator according to a result of comparing the pressure measured by the pressure sensor with a preset pressure during the polishing operation of the polisher. The polishing machine according to claim 1, wherein the pressure sensor and the actuator are a piezo sensor and a piezo actuator, respectively.