KR200156068Y1 - Automatic measuring apparatus of cross section for grinder - Google Patents

Abstract

The present invention is to facilitate the position gauge position adjustment of the automatic section measuring device used in the machine tool such as a grinding machine to improve the measurement accuracy when measuring the cross section of the workpiece.

To this end, the present invention has a base block 1, an air cylinder 2 installed at one end of the base block, a housing mount block 3 installed at the other end of the base block, and an upper end of the housing mount block. One end is hinged to the housing 4 and one end of the plunger 5 of the air cylinder and the other end is hinged to the other end of the housing so that a rotation moment is applied to the housing when the plunger is advanced according to the operation of the air cylinder. A hinge lever 6 to be provided, a handle 7 coupled to one side of the housing and pivoted together when the housing rotates, and mounted on the cross section of the workpiece to be moved forward and backward in the axial direction of the handle tip handle. It is an automatic section measuring device of a grinding machine composed of a position gauge 8 that reads coordinate values in contact.

Description

Automatic section measuring device of grinding machine

The present invention relates to an automatic cross section measuring device of a grinding machine, and more particularly, to improve the measurement accuracy by allowing the position gauge position adjustment of the automatic cross section measuring device used in a machine tool such as a grinding machine to be easily performed.

In general, a grinding machine is a machine tool used for a high speed cutting operation in which a grinding wheel is rotated at a high speed to sharpen fine chips from the surface of a workpiece with sharp edges of the grindstone particles on the surface of the grindstone.

On the other hand, the automatic section measuring device used for the grinding machine reads the coordinate value of the contact point in contact with the end face of the workpiece.

As described above, the conventional automatic cross section measuring device which reads the coordinate value of the contact point in contact with the end face of the workpiece as shown in Fig. 1, has a base block (1) and one end of the base block (1). An air cylinder (2) to be installed, a housing (4) mounting block (3) installed at the other end of the base block (1), and a housing having one end hinged to an upper end of the mounting block (3) of the housing ( 4) and one end is coupled to the front end of the plunger 5 of the air cylinder 2 and the other end is coupled to the other end of the housing 4 to impart a rotation moment to the housing 4 when the air cylinder 2 is operated. A position gauge which reads coordinate values by contacting a cross section of a workpiece to be measured and mounted on a hinge lever 6, a handle 7 coupled to one side of the housing 4, and a front end of the handle 7. 8).

On the other hand, the conventional automatic cross section measuring device should be placed on the X axis of the cross section of the workpiece to be measured the end of the position gauge (8).

That is, in the initial state where the end of the position gauge 8 deviates from the X axis of the workpiece cross section, when the end of the position gauge 8 is to be positioned on the X axis of the workpiece cross section, the position gauge 8 is rotated to be virtual. By moving to the line position, the end of the position gauge 8 is moved to the position of the imaginary line so as to be aligned on the X axis.

At this time, the operation of the conventional automatic section measuring device is made as follows.

When the air cylinder 2 is operated so that the plunger 5 of the air cylinder 2 is retracted into the air cylinder 2, the housing 4 and the handle 7 coupled thereto rotate together.

That is, when the housing 4 coupled to the upper end of the mounting block 3 of the housing 4 rotates with the bearing and the pin assembly as the supporting point, the handle 7 and the handle 7 coupled to the housing 4 are provided at the tip of the handle 7. The mounted position gauge 8 is rotated at a constant angle.

In this way, the end of the position gauge 8 can be brought into contact with the end face of the workpiece to be measured to read the coordinate value.

On the other hand, when positioning the position gauge 8 in the end surface of the workpiece in this way, if the end of the position gauge 8 slightly deviates from the X-axis of the workpiece cross-section is adjusted by a nut located below the end of the air cylinder (2) Thus, the end of the position gauge 8 can be positioned on the X axis of the workpiece cross section.

However, such a conventional automatic cross section measuring device has a very small position adjustment range of the position gauge 8 when the end portion of the position gauge 8 is matched on the X axis of the workpiece cross section to be measured, which makes it difficult to accurately position the cross section. .

That is, since the position gauge 8 can be rotated only by using the bearing and the pin assembly of the housing 4 as a supporting point, it is not easy to match the position of the end of the position gauge 8 on the X axis of the workpiece cross section.

Therefore, the position of the end of the position gauge 8 is not exactly located on the X-axis, there was a problem that the machining defects for the workpiece during the cutting of the grindstone.

In addition, as described above, when the positioning is not accurate, there are many problems such as fragmentation of the workpiece during the grinding operation, which may cause a safety accident.

The present invention is to solve the above problems, the present invention is to automatically adjust the position gauge position of the automatic section measuring device used in the machine tool, such as grinding machine to improve the measurement accuracy It is an object of the present invention to provide a section measurement device.

Figure 1 is a front view of the main part showing a conventional automatic cross section measuring device for machine tools

Figure 2 is a front view of the main part showing an automatic cross section measuring device for a machine tool according to the present invention

3 is a side view of the main portion of FIG.

4 is a conceptual diagram showing the operating principle of the subject innovation device

* Explanation of symbols for main parts of the drawings

1: Base block 2: Air cylinder

3: housing mounting block 4: housing

5: plunger 6: hinge lever

7: handle 8: position gauge

9: Support Bracket 10: Adjusting Bolt

10a: threaded portion 11a: guide hole

11: gauge mount bracket

In order to achieve the above object, the present invention, the position gauge of the automatic cross-section measuring device which reads the coordinate value of the position in contact with the end face of the workpiece to the structure that can be adjusted in the longitudinal direction as well as the rotation direction position gauge It is an automatic section measuring device of the grinding machine that makes the end more easily located on the X axis of the workpiece cross section.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 2 to 4 as follows.

Figure 2 is a front view of the main part showing an automatic sectional measuring device for a machine tool according to the present invention, Figure 3 is a side view of the main part of Figure 2 viewed from the A direction, Figure 4 is a conceptual diagram showing the operating principle of the device of the present invention, The present invention has a structure that can adjust the position gauge in the longitudinal direction as well as the rotation direction.

That is, in the automatic section measuring apparatus of the present invention, an air cylinder 2 is installed at one end of the base block 1, and a housing block 4 is installed at the other end of the base block 1. One end of the housing 4 is hinged to the upper end of the mounting block 3 of the housing 4.

In addition, one end of the hinge lever 6 which imparts a rotation moment to the housing 4 when the plunger 5 moves forward according to the operation of the air cylinder 2 is coupled to the distal end of the plunger 5 of the air cylinder 2. The other end of the hinge lever 6 is hinged to the other end of the housing 4.

In addition, a handle 7 which rotates together when the housing 4 rotates is coupled to one side of the housing 4, and a position at which the handle 7 is in contact with a cross section of the workpiece to be measured to read a coordinate value. The gauge 8 is configured to be mounted so as to be forward and retractable along the axial direction of the handle 7.

Meanwhile, the means for advancing and retracting the position gauge 8 along the axial direction of the handle 7 is installed so as to be idling with the support bracket 9 mounted on one side of the handle 7 and the support bracket 9. The adjustment bolt 10 and the guide hole 11a which is screwed to the threaded portion 10a of the adjustment bolt 10, while the position gauge 8 is mounted at the front end to move the adjustment bolt 10 to the left or right. It consists of a gauge mount bracket 11 which is moved up and down along the axial direction of the handle 7 as it rotates.

The operation of the present invention configured as described above is as follows.

When the end of the position gauge 8 is out of the X-axis of the workpiece cross section and the end of the position gauge 8 is to be positioned on the X-axis of the workpiece cross section, rotate the position gauge 8 to position the virtual line. To position the end of the position gauge 8 on the X axis.

At this time, the automatic section measuring device of the present invention is performed as follows.

When the air cylinder 2 is operated so that the plunger 5 of the air cylinder 2 is retracted into the air cylinder 2, the housing 4 and the handle 7 coupled thereto rotate together.

That is, when the housing 4 coupled to the upper end of the mounting block 3 of the housing 4 rotates with the bearing and the pin assembly as the supporting point, the handle 7 and the handle 7 coupled to the housing 4 are provided at the tip of the handle 7. The mounted position gauge 8 is rotated at a constant angle.

In this way, the end of the position gauge 8 can be brought into contact with the end face of the workpiece to be measured to read the coordinate value.

In this way, when positioning the position gauge 8 in the cross section of the workpiece, if the end of the position gauge 8 slightly deviates from the X axis of the workpiece cross section, it is adjusted by a nut located at the lower end of the end of the air cylinder 2. By slightly rotating the gauge 8, the end of the position gauge 8 can be positioned on the X-axis of the cross section of the workpiece, which is the same as the operation of the above-described prior art apparatus.

On the other hand, when the end of the position gauge 8 is excessively out of the X-axis of the workpiece cross-section excessively, it is impossible to position the end of the position gauge 8 on the X axis only by slight position gauge 8 adjustment. The position of the position gauge 8 is adjusted using an adjusting device according to the present invention.

That is, the position gauge 8 is rotated to rotate the adjusting bolt 10 mounted on the handle 7 to the left or right in a state in which the end of the position gauge 8 is located near the X axis to some extent.

Accordingly, the gauge mount bracket 11 screwed to the adjusting bolt 10 is raised or lowered along the axial direction of the handle 7, and the position gauge 8 mounted on the gauge mount bracket 11 is also raised. It is raised or lowered together with the gauge mount bracket 11.

At this time, the adjustment bolt 10 installed on the support bracket 9 is of course to be idle in place.

That is, in the present invention, as shown in FIG. 4, when the end of the position gauge is initially located at (A), the end of the position gauge (8) is moved from (A) to (B) by the rotation of the handle 7. If the end of the position gauge is not located on the X axis but is located at (B) while the steering wheel is completed, move the gauge mount bracket 11 to the (C) position on the X axis. Will be moved.

In short, according to the present invention, the end of the position gauge 8 is positioned on the X axis by a combination of the rotation of the handle 7 and the forward movement of the gauge mount bracket 11.

On the other hand, as described above, the end of the position gauge 8, which is out of the X-axis of the workpiece cross section due to the rotation of the handle 7 and the raising and lowering of the gauge mount bracket 11, is located on the X-axis of the workpiece cross-section. In addition, the automatic cross section measuring device can read the coordinate value of the position.

As described above, the present invention can further widen the adjustment range in fitting the position gauge 8 on the X-axis of the workpiece cross section during machining using a grinding machine.

As a result, the position gauge 8 is more easily aligned with the end of the position gauge 8 on the X-axis of the workpiece cross-section, thereby preventing the occurrence of workpiece machining defects during cutting of the grindstone. It can reduce the risk of an accident.

Claims (2)

With the base block, An air cylinder installed at one end of the base block; A housing mount block installed at the other end of the base block; A housing having one end hinged to an upper end of the housing mount block; A hinge lever having one end coupled to the plunger front end of the air cylinder and the other end hinged to the other end of the housing to impart a rotation moment to the housing when the plunger moves forward according to the operation of the air cylinder; A handle coupled to one side of the housing to rotate together when the housing rotates; And a position gauge mounted to be capable of moving forward and backward in the axial direction of the handle tip and configured to read a coordinate value in contact with a cross section of a workpiece to be measured. The method of claim 1, Means for advancing and retracting the position gauge in the axial direction of the handle, A support bracket mounted to one side of the handle; An adjusting bolt mounted to idle on the support bracket; A gauge mount bracket having a guide hole screwed to the threaded portion of the adjusting bolt and a position gauge mounted at the tip end thereof; And the gauge mounting bracket and the position gauge mounted thereon are raised or lowered along the axial direction of the handle as the adjusting bolt is selectively rotated left or right.