KR102044323B1 - Apparatus for hole expansion test - Google Patents

Abstract

By selecting the appropriate illumination for the specimen's color so that the camera accurately recognizes the specimen's cracks, the specimen is fixed to the specimen holder and mounted on the lower support so that it can be lifted and lowered to improve the suitability and reliability of the test data during hole expansion testing. A punching part for opening a hole with a punch, a photographing part including a camera disposed on an upper part of the punching part and fixed to an upper support, and spaced from a lower part of the camera to illuminate a specimen; and It is provided to be movable up and down on one side to provide a hole expandability test apparatus including an illuminance control unit having a plurality of blocking plates to screen the front of the camera to adjust the brightness of the illumination.

Description

Hole expandability tester {APPARATUS FOR HOLE EXPANSION TEST}

A test apparatus for photographing specimens using a camera in a hole expandability test is disclosed.

Hole Expansion Ratio (HER) is a material characteristic of how much a hole processed through punching on a specimen can be expanded without defects such as cracking and necking.

The test for hole expandability is obtained by expanding the hole using a mold at the initial diameter of the specimen, and then comparing the initial diameter and the expanded diameter of the hole with each other to obtain a ratio.

The punch is inserted into the hole of the specimen, the crack is generated as the hole is expanded. The operator observes the extent of the crack while looking at the screen of the computer, and when a complete crack occurs in the hole, the forward movement of the punch is stopped.

In order to secure the data of the hole expansion rate through the hole expandability test, it is important to stop the punch by recognizing the exact breaking point of the crack.

However, since it is difficult to recognize the breaking time of the crack, the width of the crack is different for each worker, and thus a large data deviation occurs. The variation occurs more severely depending on the type of specimen.

The color of the specimen provided in the hole expandability test varies, and different colors appear depending on heat treatment or other surface treatment conditions even in the same steel grade. Conventionally, regardless of the color of the specimen to recognize the crack of the specimen using a camera with a constant illumination, the recognition degree was very low.

In addition, since the worker progresses manually during the hole expandability test, excessive work time is required, and since the punch is stopped manually after recognizing the crack of the specimen, the operator has a problem of severe data deviation.

When the surface of the specimen is bright, it is difficult for the camera to accurately recognize cracks due to light reflection by the illumination. On the contrary, when the illumination is dark, there is a problem that the interface between the hole processed in the specimen and the surface of the specimen is not accurately recognized.

Due to the lighting problem as described above, there was a problem that the suitability of data during the hole expandability test is poor.

Selecting and using the roughness appropriate for the color of the specimen so that the camera accurately recognizes the crack in the specimen provides a hole expandability tester designed to improve the suitability and reliability of the test data in the hole expandability test.

The hole expandability test apparatus includes a punching part for widening the hole of the test piece by using a punch provided to fix the test piece to the test piece holder to move up and down on the lower support, a camera disposed on the punching part and fixed to the upper support and the camera Is provided at intervals from the lower portion is provided with a photographing unit including an illumination for irradiating the light to the specimen, and a plurality of blocking plate is installed to be able to move up and down on the side of the camera to adjust the brightness of the illumination by screening the front of the camera It may include a roughness control unit.

The punching unit may further include a color meter installed on the specimen holder to recognize the color of the specimen fixed before the hole expansion test.

The hole expandability test apparatus receives the color data of the specimen measured by the color measuring instrument and compares the color of the specimen photographed by the camera when the hole of the specimen is expanded to send a signal to the roughness control unit to select the blocking plate The control unit may further include.

The illuminance control unit is installed in the groove of the upper support in a state in which the blocking plate is accommodated, the supply base for selectively drawing out the blocking plate, and a feed screw connected to the upper portion of the supply plate by the operation of the motor. It may include a transfer unit is moved up and down the supply table.

The illuminance control unit may further include a supply cylinder installed at a rear side of the supply stand and pushing the blocking plate so that the blocking plate selected from the supply stand is located in front of the camera.

The blocking plate installed in the supply table may be arranged in a plurality of intervals in the vertical direction, and may have a structure in which the brightness of the blocking plate increases in one direction.

A plurality of air nozzles for injecting air to the surface of the blocking plate is installed in each of the upper and lower portions around the blocking plate in front of the supply table may be further included.

The supply table may further include a fixing frame installed at one end of the blocking plate and in contact with the cylinder rod of the supply cylinder to move together with the blocking plate.

It may further include a guide disposed side by side with the blocking plate in the inside of the supply, the fixing frame is inserted and moved with an elastic force by a spring installed on the outside.

According to this apparatus, the illuminance of the camera is automatically adjusted according to the chromaticity of the surface of the specimen, so that the cracks of the specimen can be taken more clearly. By clearly photographing the cracks in the specimen during the hole expandability test, the suitability and reliability of the test data can be improved.

In addition, when photographing the specimen, the illuminance of the camera is automatically set to light or dark depending on the color of the specimen, thereby improving the specimen crack recognition rate of the camera, thereby improving work efficiency during the test.

1 is a view schematically showing a hole expandability test apparatus according to the present embodiment.
2 is a view schematically showing the roughness control unit of the hole expandability test apparatus according to the present embodiment.
3 is a view schematically showing the structure of the illuminance control unit according to the present embodiment.
4 is a view schematically showing a block structure of the illuminance control unit according to the present embodiment.
5 is a view schematically showing a state in which a conventional specimen and the specimen according to this embodiment are compared.
6 is a table showing the lighting conditions according to the specimen surface according to the present embodiment.

The terminology used below is merely to refer to specific embodiments, and is not intended to limit the present invention. As used herein, the singular forms “a,” “an,” and “the” include plural forms as well, unless the phrases clearly indicate the opposite. As used herein, the meaning of “comprising” embodies a particular characteristic, region, integer, step, operation, element, and / or component, and other specific characteristics, region, integer, step, operation, element, component, and / or group. It does not exclude the presence or addition of.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art can easily understand, the embodiments described below may be modified in various forms without departing from the concept and scope of the present invention. Accordingly, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a view schematically showing a hole expandability test apparatus according to the present embodiment. 2 is a view schematically showing the roughness control unit of the hole expandability test apparatus according to the present embodiment.

As shown in Figure 1 and 2, the hole expandability tester 1 that can adjust the illuminance of the camera 22 for photographing the crack of the specimen (T) during the hole expandability test is disclosed.

In this embodiment, the hole expandability test apparatus 1 is a hole of the specimen (T) with a punch 13 is fixed to the specimen holder (11) to the lower support (12) to be raised and lowered Punching part 10 to widen the, the upper portion of the punching portion 10 is disposed at intervals between the camera 22 and the lower portion of the camera 22 fixed to the upper support 21 specimen (T) The photographing unit 20 including an illumination 23 for irradiating light to the camera, and a plurality of cameras are installed to be able to move up and down on the side of the camera 22 to adjust the brightness of the illumination by screening the front of the camera 22. It may include an illumination control unit 30 is provided with two blocking plates (31).

The camera 22 photographs cracks generated around the holes of the test piece T while widening the holes of the test piece T with the punch 13 of the punching part 10. The illuminance of the camera 22 according to the color of the specimen T may be adjusted through the illuminance adjusting unit 30.

That is, the illuminance of the camera 22 may be adjusted by selecting the blocking plate 31 of the illuminance control unit 30 according to the color of the specimen T and placing it on the front of the camera 22. When the dark blocking plate 31 is disposed in front of the camera 22, the illuminance of the camera 22 is darkly adjusted. When the bright blocking plate 31 is disposed in front of the camera 22, the illuminance of the camera 22 is brightly adjusted.

The illumination 23 installed under the camera 22 always irradiates the specimen T with light having a constant brightness. The blocking plate 31 of the illuminance control unit 30 is disposed in front of the camera 22 to adjust the illuminance of the camera 22 so that the brightness around the specimen T can be adjusted.

In addition, the punching unit 10 may further include a color measuring device 14 installed on the specimen holder 11 to recognize the color of the specimen (T) fixed before the hole expansion test. The color meter 14 measures the surface color of the specimen T before the hole expansion test and stores the color in the computer 40.

The surface color of the specimen T and the surface color of the specimen when cracks are generated in the specimen T during the hole expansion test are compared with each other.

The hole expandability test apparatus 1 receives the color data of the specimen T measured by the color measuring instrument 14, and when the hole of the specimen T is expanded, The controller 50 may further include a control unit 50 for comparing the color to send a signal to the illuminance control unit 30 to select the blocking plate 31.

The illuminance of the camera 22 according to the color of the specimen T may be selected through the controller 50. The illuminance of the camera 22 may be selected by selecting the blocking plate 31 suitable for the color of the specimen T as a signal of the controller 50. The illuminance of the camera 22 may be adjusted according to the light and dark of the blocking plate 31.

In the present embodiment, the illuminance control unit 30 is installed in the groove (21a) of the upper support 21 in a state that accommodates the blocking plate 31 to be lowered, the blocking plate 31 A feeder 32 which selectively pulls out, and a feed screw 33a connected to the upper portion of the feeder 32 are moved by the operation of the motor 33b to move up and down the feeder 32. It may include.

The blocking plate 31 may be selected to adjust the illuminance of the camera 22 according to the color of the specimen T. The blocking plate 31 is supplied by the supply base 32 installed on one side of the camera 22. The blocking plate 31 is selected according to the signal of the control unit 50 to arrange the selected blocking plate 31 on the front of the camera 22 while the supply base 32 moves.

The supply table 32 may be moved up and down by the transfer unit 33. The motor 33b is driven by the signal of the controller 50 to rotate the feed screw 33a connected to the gear of the motor 33b. Accordingly, the feed table 32 screwed with the feed screw 33a is raised or lowered along the feed screw 33a.

In addition, the illuminance control unit 30 is installed at the rear of the supply base 32, so that the blocking plate 31 selected from the supply base 32 is located in front of the camera 22 ( It may further comprise a supply cylinder 34 for pushing 31.

The supply cylinder 34 is disposed behind the selected blocking plate 31 to push the blocking plate 31 forward with the cylinder rod 34a of the supply cylinder 34. Accordingly, the blocking plate 31 may be drawn out from the supply table 32 and disposed at the front of the camera 22 to adjust the illuminance of the camera 22.

That is, the illuminance of the camera 22 may be adjusted according to the brightness of the blocking plate 31. When the dark blocking plate 31 is disposed in front of the camera 22, the illuminance of the camera 22 becomes dark. On the contrary, when the bright blocking plate 31 is disposed in front of the camera 22, the illuminance of the camera 22 is in a bright state.

The blocking plate 31 installed inside the supply table 32 may be arranged in a plurality of intervals in the vertical direction, and may have a structure in which the brightness of the blocking plate 31 becomes darker in one direction.

The blocking plate 31 disposed at the top of the supply base 32 may be a transparent blocking plate 31 so that the illuminance of the camera 22 may be used as it is. Brightness of the blocking plate 31 gradually decreases toward the lower side of the supply base 32, so that the illuminance of the camera 22 may be gradually darkened.

3 is a view schematically showing the structure of the illuminance control unit according to the present embodiment.

As shown in FIG. 3, a plurality of air nozzles are provided in front of the supply base 32 to inject air onto the surfaces of the blocking plate 31 which are respectively installed at the upper and lower sides of the blocking plate 31 and drawn out. 35) may be further included.

The air nozzle 35 may operate from the moment when the supply cylinder 34 behind the supply table 32 is operated to draw out the blocking plate 31 to inject air to the surface of the blocking plate 31. . The air injected through the air nozzle 35 removes the foreign matter adhering to the surface of the blocking plate 31 to improve the recognition of the camera 22 at the time of photographing, thereby photographing the crack of the specimen hole more accurately.

4 is a view schematically showing a block structure of the illuminance control unit according to the present embodiment.

As shown in FIG. 4, the supply table 32 is installed at one end of the blocking plate 31 to be in contact with the cylinder rod 34a of the supply cylinder 34 to be together with the blocking plate 31. It may further include a fixed frame 36 to be moved.

The fixing frame 36 is fixed to one side of the blocking plate 31 and is moved together with the blocking plate 31. The cylinder rod 34a pushes the fixing frame 36 by the operation of the supply cylinder 34. By blocking, the blocking plate 31 may be drawn out to the front of the feed table 32 and disposed on the front of the camera 22.

The guide 38 is arranged in parallel with the blocking plate 31 in the supply table 32, and the fixing frame 36 is inserted to be moved while having an elastic force by the spring 37 installed on the outside. It may include.

When the fixing frame 36 moves forward along the guide 38, the fixing frame 36 moves with a compression force by a spring 37 installed in the guide 38. After the camera 22 is photographed, when the operation of the supply cylinder 34 is turned off to return the blocking plate 31 to the original position, the spring 37 that has been compressed is unfolded to push the fixing frame 36 to the original position. do.

5 is a view schematically showing a state in which a conventional specimen and the specimen according to this embodiment are compared.

As shown in Figure 5, by adjusting the roughness of the camera 22 of the hole expandability test apparatus 1 can be more clearly photographed cracks generated in the hole of the specimen (T).

5 (a) is a photograph of the crack (C1) generated in the conventional specimen hole (H1), when the bright color of the specimen (T1) is photographed, the hole (H1) formed in the specimen (T1) The crack C1 around the contour and the hole is not clearly seen. The reason is that the light of the light is reflected on the brightly colored specimen T1 so that the exact position of the crack C1 does not appear.

On the contrary, (b) of FIG. 5 shows the specimen T2 in the state in which the illuminance of the camera 22 is adjusted by applying the illuminance adjusting unit 30 of the camera 22 of the hole expandability test apparatus 1. By taking a picture, the hole H2 and the crack C2 of the said specimen T2 appear more clearly. By adjusting the illuminance of the camera 22 according to the color of the specimen T2, the hole H2 of the specimen T2 and the crack C2 around the hole H2 may appear more clearly when photographing.

6 is a table showing the lighting conditions according to the specimen surface according to the present embodiment.

As shown in FIG. 6, the illuminance condition of the camera 22 according to the surface color of the specimen T is set. When the actual hole expansion ratio value of the specimen T is set, the movement distance of the punch 13 accordingly is determined. It can be calculated in proportion to the hole expansion ratio value.

The color of the blocking plate 31 is selected and arranged in front of the camera 22 so that the illuminance of the camera 22 can be automatically adjusted according to the brightness of the specimen surface. The operator can check the color of the specimen (T) and select the roughness suitable for the color by checking the color plate of the barrier plate.

When the numerical value is input with reference to the color plate of the barrier plate, the barrier plate 31 related to the color is selected during operation, and the specimen is placed in front of the camera 22 to adjust the illumination of the camera 22. (T) can be taken.

Therefore, the illuminance of the camera 22 is automatically adjusted according to the surface chromaticity of the specimen T, so that the crack of the specimen T can be taken more clearly, and the crack of the specimen T clearly during the hole expandability test. By taking pictures, the suitability and reliability of the test data can be improved. When photographing the specimen (T), the illuminance of the camera 22 is automatically set to light or dark depending on the color of the specimen (T) to improve the specimen crack recognition rate of the camera 22 can increase the working efficiency during the test.

While the exemplary embodiments of the invention have been illustrated and described as described above, various modifications and other embodiments may be made by those skilled in the art. Such modifications and other embodiments are all considered and included in the appended claims, without departing from the true spirit and scope of the invention.

1: hole expandability test apparatus 10: punching part
11: specimen holder 12: lower support
13: Punch 14: Color Meter
20: photographing unit 21: upper support
21a: home 22: camera
23: lighting 30: illumination control
31: blocking plate 32: supply table
33: feed section 33a: feed screw
33b: motor 34: supply cylinder
34a: cylinder rod 35: air nozzle
36: fixing frame 37: spring
38: Guide 40: Computer
50 control part T, T1, T2: test piece
C1, C2: Crack H1, H2: Hole

Claims (9)

A punching part for fixing the specimen to the specimen holder to widen the hole of the specimen with a punch installed on the lower support to move up and down;
A photographing unit disposed on an upper portion of the punching unit and fixed to an upper support, and a camera installed at a lower portion of the camera at an interval to illuminate the specimen; And
It is installed on one side of the camera can be moved up and down comprises an illuminance control unit provided with a plurality of blocking plates to screen the front of the camera to adjust the illuminance of the camera,
The illuminance control unit is installed in the groove of the upper support in a state of receiving the blocking plate, the supply base for selectively withdrawing the blocking plate, and the feed screw connected to the upper portion of the supply plate by the operation of the motor A hole expandability test apparatus including a transfer unit for moving up and down the supply stage. The method of claim 1,
The punching unit further comprises a color measuring device installed on the specimen holder to recognize the color of the specimen fixed before the hole expansion test. The method of claim 2,
The controller further includes a control unit which receives the color data of the specimen measured by the color measuring instrument and selects the blocking plate by comparing a color of the specimen photographed by the camera when the hole of the specimen is expanded to send a signal to the illumination control unit. Hole expandability testing device. delete The method of claim 1,
And the illuminance control unit further includes a supply cylinder installed at a rear side of the supply stand and pushing the blocking plate so that the blocking plate selected from the supply stand is located in front of the camera. The method of claim 5,
The blocking plate installed in the supply stand is arranged in a plurality of intervals in the vertical direction, the hole expandability test apparatus of the structure that the brightness of the blocking plate becomes darker in one direction. The method of claim 6,
And a plurality of air nozzles for injecting air to the surfaces of the blocking plate which are respectively installed at the upper and lower sides of the blocking plate in front of the supply stand and drawn out. The method of claim 5,
The supply table further comprises a fixing frame which is installed at one end of the blocking plate is in contact with the cylinder rod of the supply cylinder to move with the blocking plate. The method of claim 8,
And a guide disposed side by side with the blocking plate in the supply stand, the fixing frame being inserted and moved with elastic force by a spring installed outside.

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