KR102192816B1 - Apparatus for measuring abration of tooling pin - Google Patents

Abstract

The present invention relates to an apparatus for measuring wear of a tooling pin, comprising a seating portion seated on a tooling pin fixing unit in which the tooling pin is fixed, a body portion installed in the seating portion, and a tooling pin installed to be elevating and descending on the body portion. It is made in a ring shape so as to surround it, and characterized in that it includes a measuring unit for measuring the wear degree of the tooling pin.

Description

Tooling pin wear measurement device {APPARATUS FOR MEASURING ABRATION OF TOOLING PIN}

The present invention relates to a tooling pin wear measuring device, and more particularly, by measuring the wear of the tooling pin by infrared distance measurement method, the reliability of the wear of the tooling pin can be improved, and the exact replacement timing of the tooling pin is determined. It relates to a device for measuring the wear of the possible tooling pin.

In general, tooling pins are used to regulate the position of parts to be assembled in the part assembly process. The tooling pin is installed in the tooling pin fixing unit, is formed in a substantially cylindrical shape, and the upper part is formed in an inclined shape. As the component assembly process is repeated, wear of the tooling pin occurs, and the worn tooling pin must be replaced periodically.

Conventionally, the operator used a vernier caliper to measure the degree of wear of the tooling pin, and the operator directly measured it, and the accuracy of the measurement position and the measured value is poor when measuring directly by such an operator, making it difficult to accurately determine whether to replace the tooling pin There was this. Therefore, there is a need to improve this.

Background art of the present invention is published in Korean Patent Publication No. 10-1137255 (registered on April 10, 2012, title of invention: tooling pin unit for jig device).

The present invention was created to improve the above problems, and an object of the present invention is to improve the reliability of measuring the wear of the tooling pin by measuring the wear of the tooling pin by the infrared distance measurement method, and accurate replacement of the tooling pin. It is to provide a tooling pin wear measuring device in which the timing can be determined.

The tooling pin wear measurement apparatus according to the present invention includes: a seating portion that is seated on a tooling pin fixing unit in which the tooling pin is fixed, a body portion installed in the seating portion, and a body portion that is installed to be elevating and descending on the body portion. It is made in a ring shape so as to be wrapped, and characterized in that it includes a measuring unit for measuring the wear degree of the tooling pin.

In addition, the measuring unit includes a plurality of distance detection sensors, and the distance detection sensors are arranged radially.

In addition, the distance detection sensor is characterized in that it detects the distance to the outer peripheral surface of the tooling pin with infrared rays.

In addition, the seating portion is characterized in that it is fixed to the tooling pin fixing unit including an electromagnet through magnetic force.

In addition, the main body is characterized in that the screw rod to which the measuring unit is rotatably coupled, a drive motor to rotate the screw rod, and a controller to control the drive motor and the distance detection sensor are installed.

In the apparatus for measuring wear of a tooling pin according to the present invention, reliability of measuring the wear of the tooling pin may be improved by measuring the wear of the tooling pin by an infrared distance measurement method.

In addition, the exact replacement timing of the tooling pin can be determined by measuring the wear degree of the tooling pin using an infrared distance measurement method.

1 is a perspective view schematically showing an apparatus for measuring wear of a tooling pin according to an embodiment of the present invention.
2 is a cross-sectional view schematically showing a side surface of an apparatus for measuring wear of a tooling pin according to an embodiment of the present invention.
Figure 3 is a cross-sectional view schematically showing the wear measurement of the tooling pin using the wear measuring device according to an embodiment of the present invention.

Hereinafter, an embodiment of an apparatus for measuring wear of a tooling pin according to the present invention will be described with reference to the accompanying drawings. In this process, thicknesses of lines or sizes of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

1 is a perspective view schematically showing an apparatus for measuring wear of a tooling pin according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view schematically showing a side of an apparatus for measuring wear of a tooling pin according to an embodiment of the present invention, Figure 3 is a cross-sectional view schematically showing the wear measurement of the tooling pin using the wear measuring device according to an embodiment of the present invention.

1 to 3, the tooling pin wear measurement apparatus according to an embodiment of the present invention includes a seating portion 100 that is seated on the tooling pin fixing unit 20 to which the tooling pin 10 is fixed, and The body part 200 installed on the part 100 and the body part 200 are installed to be elevating and descending, and are formed in a ring shape so as to surround the tooling pin 10, and the wear of the tooling pin 10 is measured. It includes a measuring unit 300.

The tooling pin 10 is used to regulate the position of a component to be assembled in a component assembly process. This tooling pin 10 is installed in the tooling pin fixing unit 20, as shown in FIG. The tooling pin fixing unit 20 may have various shapes according to the shape of a component assembly jig.

The tooling pin 10 is formed in a substantially cylindrical shape, and the upper part is formed in an inclined shape. As the component assembly process is repeated, wear of the tooling pin occurs, and the worn tooling pin must be replaced periodically.

It is preferable that the tooling pin 10 is fixed to the tooling pin fixing unit 20 by screwing or the like so that the tooling pin 10 can be replaced.

The seating portion 100 is provided to detachably install the body portion 200 in which the measurement portion 300 is installed to the tooling pin fixing unit 20, and is preferably made in a rectangular parallelepiped shape in consideration of installation stability.

It is preferable that the seating portion 100 is configured to include an electromagnet so that the mounting portion 100 can be detachably installed and the stability in the installed state can be increased.

When the seating part 100 includes an electromagnet, the body part 200 in which the measurement part 300 is installed is firmly fixed to the tooling pin fixing unit 20 through the magnetic force of the electromagnet when measuring the wear degree of the tooling pin 10. In addition, when the wear measurement of the tooling pin 10 is completed, the body portion 200 in which the measuring unit 300 is installed can be easily separated from the tooling pin fixing unit 20 by removing the magnetic force of the electromagnet.

The body portion 200 is installed on the upper side of the seating portion 100 and is formed in a substantially rectangular parallelepiped shape having a long length in the vertical direction. One side of the main body 200 is provided with a measurement unit 300 so as to be elevated, and the other side of the main body 200 is provided with a control panel 800 connected to the controller 700.

The measurement unit 300 is formed in a ring shape to surround the tooling pin 10, and the measurement unit 300 has a radially so that the degree of wear can be measured at various positions with respect to the outer circumferential surface 11 of the tooling pin 10. A plurality of distance detection sensors 400 to be disposed are provided.

The plurality of distance detection sensors 400 detect the distance to the outer circumferential surface 11 of the tooling pin 10 in infrared and transmit it to the controller 700, and the controller 700 is configured by the plurality of distance detection sensors 400. Using the sensed distance data, the worn state of the tooling pin 10 is reconstructed into a three-dimensional shape and displayed on the control panel 800, and whether the tooling pin 10 is replaced by comparing the set wear limit data with the measured data. Is displayed on the control panel 800.

In addition, a screw rod 50 to which the connection bar 310 of the measurement unit 300 is rotatably coupled is installed inside the main body 200, and the measurement unit is rotated in a forward or reverse direction. A drive motor 600 for elevating 300 is installed. The drive motor 600 is connected to the controller 700 so as to be controlled by the controller 700.

As described above, according to the present invention, the reliability of measuring the wear degree of the tooling pin may be improved by measuring the wear degree of the tooling pin using an infrared distance measurement method. In addition, the exact replacement timing of the tooling pin can be determined by measuring the wear degree of the tooling pin using an infrared distance measurement method.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is only illustrative, and those of ordinary skill in the field to which the technology pertains, various modifications and other equivalent embodiments are possible. I will understand. Therefore, the true technical protection scope of the present invention should be determined by the following claims.

10: tooling pin 20: tooling pin fixing unit
100: seat 200: main body
300: measuring unit 310: connecting bar
400: distance sensor 500: screw rod
600: drive motor 700: controller
800: control panel

Claims (5)

A mounting portion to be seated in the tooling pin fixing unit to which the tooling pin is fixed;
A body portion installed on the seating portion; And
Including; a measuring unit installed to be elevating to the body portion, made in a ring shape so as to surround the tooling pin, and measuring the wear degree of the tooling pin,
The measurement unit includes a plurality of distance detection sensors, and the distance detection sensors are radially arranged,
The seating portion includes an electromagnet, and the body portion is detachably installed to the tooling pin fixing unit through magnetic force,
The main body is provided with a screw rod rotatably coupled to the measuring unit, a drive motor rotating the screw rod, and a controller for controlling the drive motor and the distance detection sensor,
The controller reconstructs the worn state of the tooling pin into a three-dimensional shape using the distance data sensed by the distance detection sensor and displays it on the control panel, and compares the set wear limit data with the measured data to Tooling pin wear measuring device, characterized in that to display the replacement status on the control panel.
delete The method of claim 1,
The distance detection sensor is a wear measurement device of the tooling pin, characterized in that for detecting the distance to the outer peripheral surface of the tooling pin by infrared. delete delete

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