KR102466663B1 - tap hole vision inspection device - Google Patents

Abstract

The present invention relates to a tap hole vision inspection device, and more particularly, to a tap hole vision inspection device for determining whether a screw thread formed in a tap hole is normally processed by a vision inspection method using a camera for the inside of a tap hole with a simple portable structure. will be.
In addition, it includes a body in close contact with the object to be measured and a camera for photographing the tap hole and a transfer unit disposed at the center of the body to transfer the camera, and the transfer unit is centered on a virtual central axis parallel to the central axis of the tap hole. It is characterized in that the inside of the tap hole is photographed while being transported along the circular transfer path, and the distance between the threads formed in the tap hole is extracted from the image taken while being transferred and compared with other images to determine whether the tap hole is normally processed.

Description

Tap hole vision inspection device {tap hole vision inspection device}

The present invention relates to a tap hole vision inspection device, and more particularly, to a tap hole vision inspection device for determining whether a screw thread formed in a tap hole is normally processed by a vision inspection method using a camera for the inside of a tap hole with a simple portable structure. will be.

In general, tap processing refers to an operation of forming a female screw groove (tap hole) for fastening a male screw to a floor surface or a wall surface.

These female screw grooves are usually formed by a tool that cuts the female screw of a hole with a relatively small diameter, called a tap.

Since it is not possible to visually check the inside of the female screw groove machined in this way, whether or not the tap machining is defective is checked through a so-called tap defect inspection device to check whether the tap machining is good or bad.

A conventional tap failure inspection device uses a go no go gauge or is connected to an external measuring amplifier and has a structure in the shape of a handle having a sensor rod at its tip.

In this prior art tap defect inspection device, the operator directly rotates the gauge and inserts it into the tap hole to determine whether the tap hole is defective or inserts an electronic sensor rod into the tap hole and detects the detection signal of the sensor rod by an external measuring amplifier. Thus, it is possible to check whether the inside of the tap is defective.

Since the tap defect inspection apparatus of the prior art is a method of simply inserting a sensor rod into the tap hole to inspect the entire tap hole, there is a problem in that a lot of time and labor are consumed due to the inspection of the entire tap hole.

In addition, since the sensor rod inserted into the tap hole must cover the entire tap hole to perform the inspection, precise inspection of each part is not performed, and there is a concern that an inspection error may occur.

In addition, since it is impossible to precisely inspect the desired location of the tap hole, the reliability of the inspection work is deteriorated.

Accordingly, a technology such as Korean Patent Publication No. 10-2010-0004235 "Tap Defect Inspection Device" has been developed to perform a tap defect inspection for the entire tap hole in detail while gradually entering the sensor rod downward or sideways from the top of the tap hole. By enabling this, it is possible to quickly identify defects in the tap hole.

In addition, the workability is improved by significantly reducing the time and labor required for inspecting the tap hole defects, and the sensor bar slowly enters from the top of the tap hole downward or sideways to inspect each part of the tap hole. Inspection has been performed so that the occurrence of inspection errors can be greatly reduced.

However, there is a problem in that it is difficult to confirm machining defects of tap holes or foreign matter defects such as burrs by electrical measurement.

Accordingly, there is a need to develop a technology for more directly and precisely inspecting a tap hole.

Korean Patent Publication No. 10-2010-0004235 "Tab defect inspection device"

An object of the present invention has been made to solve the above-mentioned problems, and to provide a tap hole vision inspection device for determining whether a screw thread formed in a tap hole is normally processed by directly checking the tap hole through a camera.

Another object of the present invention is to provide a tap hole vision inspection device for easily and simply determining whether a screw thread formed in a tap hole is normally processed in the field.

In order to achieve the above object, the tap hole vision inspection apparatus according to the present invention includes a body in close contact with the measurement object, a camera for photographing the tap hole, and a transfer unit disposed in the center of the body to transfer the camera, the transfer The inside of the tap hole is photographed while being transported along a circular transfer path centered on a virtual central axis parallel to the central axis of the tap hole, and the distance between the threads formed in the tap hole is extracted from the image taken while being transported, It is characterized in that it determines whether the tap hole is normally processed.

In addition, the camera is characterized in that it is disposed obliquely from the central axis of the tap hole in order to photograph the inner circumferential surface of the tap hole.

In addition, the conveying part is characterized in that it is configured to rotate by being coupled to the center of the body in the form of a disk.

In addition, it is characterized in that it further comprises a plurality of supports for matching the center of the tap hole and the rotation center of the transfer unit by extending from the body and spanning the tap hole.

As described above, according to the tap hole vision inspection device according to the present invention, it is possible to precisely determine whether or not the thread formed in the tap hole is processed normally by directly photographing the tap hole while the camera is transported along the periphery of the tap hole.

In addition, according to the tap hole vision inspection device according to the present invention, it is possible to easily and simply determine whether the screw thread formed in the tap hole is normally processed in the field due to its portable structure.

1 is a longitudinal sectional view showing a state of use of a tap hole vision inspection device according to the present invention;
Figure 2 is a longitudinal cross-sectional view showing a state of use according to another embodiment of the tap hole vision inspection device according to the present invention.
3 is a view showing an inspection method using an image captured through a tap-hole vision inspection apparatus according to the present invention;

Specific structural or functional descriptions of the embodiments according to the concept of the present invention disclosed in this specification are only illustrated for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention It can be embodied in various forms and is not limited to the embodiments described herein.

Embodiments according to the concept of the present invention can apply various changes and have various forms, so the embodiments are illustrated in the drawings and described in detail in this specification. However, this is not intended to limit the embodiments according to the concept of the present invention to specific disclosure forms, and includes all changes, equivalents, or substitutes included in the spirit and technical scope of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a longitudinal cross-sectional view showing a state of use of a tap hole vision inspection device according to the present invention, FIG. 2 is a longitudinal cross-sectional view showing a state of use of the tap hole vision inspection device according to another embodiment of the present invention, and FIG. It is a diagram showing an inspection method using an image taken by the tap-hole vision inspection device according to the present invention.

1 shows a state of use of the tap hole vision inspection device according to the present invention, and inspects whether the tap hole 101 is normally processed by closely contacting the measurement object 100 in which the tap hole 101 is formed.

More specifically, a body 1 in close contact with the measurement object 100 in which the tap hole 101 is formed and a camera 2 for photographing the tap hole 101 and a camera 2 disposed in the center of the body, It includes a transfer unit 3 for transferring the tap hole 101 while being transferred along a circular transfer path around a virtual central axis C1 parallel to the central axis of the tap hole 101. ) It is configured to determine whether the tap hole is normally processed by directly photographing the inside and comparing and calculating the photographed images.

At this time, the transfer unit is configured to be coupled to the center of the body in a disk shape and rotated.

In addition, the rotation of the transfer unit 3 may be configured to be rotated by a worker, or may be configured to automatically rotate at a constant speed using a motor.

In addition, the camera 2 is disposed obliquely from the central axis of the tap hole 101 in order to photograph the inner circumferential surface of the tap hole 101, and photographs the screw thread 102 formed in the tap hole 100 from one direction to the upper side of the tap hole 101. The side of the tap hole 101 is photographed at once from the screw thread 102 to the inner screw thread 102, and rotated by the transfer unit 3 to move from the upper screw thread 102 of the tap hole 101 to the inner screw thread 102 in the other direction. take a picture of the side.

In addition, even if the center of rotation C1 of the transfer part 3 does not completely coincide with the center axis of the tap hole 101, it is possible to inspect the tap hole 101, which will be described in detail below.

However, when the center of rotation C1 of the transfer unit 3 completely coincides with the central axis of the tap hole 101, there is an advantage in that the tap hole 101 can be processed and inspected with a higher inspection standard.

To this end, as shown in FIG. 2, by extending from the body 1 and spanning the tap hole 101, a plurality of pluralities for matching the center of the tap hole 101 and the rotation center C1 of the transfer unit 3 It may be configured to further include a dog support (4).

In addition, it is preferable that the support body 4 is configured in a form in which an end is bent in a “L” shape or a rake shape so as to span the inner circumferential surface of the tap hole 101 .

In addition, in order to align the center of the tap hole 101 and the center of rotation C1 of the transfer unit 3 only in the left and right directions, the support 4 may be composed of only two pieces, but up, down, left, and right In order to completely match the center of the tap hole 101 and the center of rotation C1 of the transfer unit 3 in the direction, it is preferable that three or more supports 4 are arranged at regular intervals.

3 shows an inspection method using an image captured by the tap hole vision inspection device according to the present invention, and the tap hole 101 is analyzed by analyzing the image of the tap hole 101 captured while being rotated by the transfer unit 3. normal processing of is inspected.

More specifically, when the camera is transported along a circular transport path around an imaginary central axis parallel to the central axis of the tap hole by the transport unit and photographs the inside of the tap hole from one direction as shown in (A1), the captured image is Based on this, extract the position of the screw thread, measure the distance between the screw thread (L1, L2, L3 ...), and then omit the distance between the uppermost screw thread (L1) and the remaining distance between the screw thread (L2, L3 ... ) to calculate the ratio.

Then, the position of the screw thread is extracted based on the image taken from the other direction as in (A2) through the camera rotated by a certain angle by the transfer unit, and the distance between the screw thread (L1`, L2`, L3` ...) After measuring , the distance between the uppermost threads (L1`) is omitted and the ratio of the remaining distances between the threads (L2`, L3` ...) is calculated.

In this way, whether or not the tap hole is normally processed is determined by whether the ratio of the distance between the screw threads of the images photographed at least twice or more in different directions matches.

In this way, by measuring whether the tap hole is normally machined by the ratio of the distance between the screw threads, it is possible to determine whether the tap hole is normally machined even if the rotation center of the conveying part does not completely coincide with the central axis of the tap hole.

As described above, the present invention has been described with reference to the preferred embodiments with reference to the accompanying drawings, but it is clear that many and various obvious modifications are possible to those skilled in the art from this description without departing from the scope of the present invention. Accordingly, the scope of the present invention should be construed by the claims described to include examples of these many variations.

1: body
2 : Camera
3: transfer part
4: support
100: object to be measured
101: tap hole
102: thread

Claims (4)

a body in close contact with the object to be measured;
a camera arranged obliquely from the central axis of the tap hole to photograph the inner circumferential surface of the tap hole;
a transfer unit disposed in the center of the body to transfer the camera;
It includes a plurality of supports extending from the body and having ends bent in an “L” shape or rake shape so as to span the inner circumferential surface of the tap hole so that the center of the tap hole and the rotation center of the transfer unit coincide.
The transfer part is transferred along a circular transfer path centered on the central axis of the tap hole, and the location of the screw thread is extracted based on the image taken inside the tap hole to measure the distance (L1, L2, L3) between the screw threads, and the transfer part measures the distance between the threads. Based on the images taken from different directions through the camera rotated by the angle, the position of the screw thread is extracted, and the distance between the screw threads (L1`, L2`, L3`) is measured.
A method of calculating the ratio of the distance between the uppermost threads (L1, L1`) and the distance between the remaining threads (L2, L3) and the distance between the threads (L2`, L3`) taken from the other direction Characterized in that it is characterized by determining whether the tap hole is normally processed by whether the distance ratio between the threads of the image taken at least twice or more in different directions matches
Tap hole vision inspection device.
delete According to claim 1,
the transfer unit
It is configured to be rotated by being coupled to the center of the body in the form of a disk.
Tap hole vision inspection device.
delete

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