KR102606032B1 - Film fixing device for radiation transmission inspection - Google Patents

Abstract

A film fixing device for radiographic examination according to the present invention includes an elastic body made of rubber; a rotating shaft inserted into an insertion hole formed in a horizontal direction at the bottom center of the elastic body; and a rotation support disk of a weight body installed at both ends of the rotation axis, wherein the rotation support disk is in the form of an eccentric cam, and a magnet installed at the top dead center of the rotation support disk has an interview surface on the surface of the object to be inspected. It is characterized in that the load of the rotation support disc and the magnetic force of the magnet pressurize the elastic body to fix the film placed between the elastic body and the object to be inspected without shaking.

Description

Film fixing device for radiation transmission inspection}

The present invention relates to a film fixing device for radiographic examination. Specifically, when inspecting objects made of metal or other materials installed in industrial facilities such as power plants, city gas, etc. It relates to a film fixing device for radiographic examination that improves the quality of the image projected on the film by firmly fixing it.

In general, radiographic inspection is a non-destructive testing technique that detects defects by using the change in intensity of the transmitted radiation when radiation is irradiated to the test object, that is, the difference in concentration on the film due to the difference in transmitted dose between the sound part and the defective part. Since a transmitted line stronger than the intensity of the direct transmitted line of the sound part is irradiated to the part of the film that passes through the defective part, the difference in blackening degree of the film, that is, concentration, is proportional to the difference in X-ray intensity, depending on the characteristics of the X-ray film used at the time, in the defective part. It forms a difference, and the defective part can be detected as a defect in the film.

In order to perform this radiographic examination more precisely, the film must be firmly attached to the test object. This is because if the film shakes or is separated from the object while radiation from the radiation source is transmitted through the object to be inspected and irradiated onto the film, a more accurate image cannot be projected on the film.

Considering this, the conventional technology for more firmly attaching the film to the back of the object to be inspected is Registered Utility Model No. 20-0381706, ‘Magnetic Chuck for Film Attachment to Radiation Transmission Testing Device’ and Registered Patent No. 10-1223257. It is being proposed through 'magnetic chuck for fixing film of radiographic inspection device'.

Among these prior technologies, the former relates to a magnetic chuck for attaching a film that firmly attaches the film to the object to be inspected to improve the quality of the image projected on the film, and in the latter case, it relates to a magnetic chuck that allows the magnetic body to be manipulated by the user. It has been proposed that the magnetic chuck and film can be easily separated from the object to be inspected after radiography is completed by allowing it to be easily separated from the surface of the object to be inspected through a separate separation means.

However, the former prior art includes a body having a flat portion in the shape of a plate and a pair of bent ends bent downward at both ends of the flat portion; a pair of magnets individually rotatably coupled to each other by the magnetic force of a hinge magnet on each bent end of the body; a contact port that is elastically supported on the lower surface of the flat portion of the body to adhere the film to the object to be inspected; It is composed of an elastic part that is interposed between the body and the contact port and applies elastic force to the contact port, so that the contact port is adjusted with an adjustment nut to press the body, and at the same time, the body is held without shaking against the test subject by the magnetic force of the magnet. In order to maintain the attached state, this configuration is not only complicated, such as adjusting the elastic force of the spring while adjusting the adhesion tool with a plurality of adjustment nuts, but also adjusting the film attached to the surface of the object to be inspected by adjusting each of the adjustment nuts. Problems have been pointed out, such as the complexity of the installation work using elastic force, which increases the inspection time.

In the case of the latter prior art, the magnet of the magnetic body is spaced or pressurized from the object to be inspected through a separation means, and a film is attached to the surface or back of the object to be inspected by the magnetic force of a permanent magnet that attaches the elastic body to the fixed body. By pressing, it prevents the film from shaking, and at the same time, after radiography is completed, the magnetic chuck and film can be easily separated and removed from the test object, and damage to the surface or film of the test object can be prevented during this separation and removal process. However, not only is the configuration of the separation and separation means complicated, but the film is pressed only with the magnetic force of the magnet, so there is a risk of the film shaking when the magnetic force of the magnet weakens during long-term use, which is a problem that may reduce the reliability of radiographic examination. This is pointed out.

Accordingly, in order to solve the above-mentioned problem, the present inventor has developed a new structure for fixing a film for radiographic examination that prevents the film from shaking by pressurizing the elastic body of the film attached to the test object using the magnetic force of the magnet and the load of the weight body. I would like to propose a device.

Republic of Korea Registered Utility Model No. 20-0381706 Republic of Korea Patent No. 10-1223257

The purpose of the present invention is to prevent the film from shaking by pressurizing the elastic body of the film attached to the object to be inspected with a simple structure, and to easily separate the elastic body and film from the object to be inspected after radiography is completed. Do it as

The above objectives and other inherent objectives of the present invention can all be easily achieved by the present invention described below.

A film fixing device for radiographic examination according to the present invention includes an elastic body made of rubber; a rotating shaft inserted into an insertion hole formed in a horizontal direction at the bottom center of the elastic body; and a rotation support disk of a weight body installed at both ends of the rotation axis, wherein the rotation support disk is in the form of an eccentric cam, and a magnet installed at the top dead center of the rotation support disk has an interview surface on the surface of the object to be inspected. It is characterized in that the load of the rotation support disc and the magnetic force of the magnet pressurize the elastic body to fix the film placed between the elastic body and the object to be inspected without shaking.

In the present invention, it is preferable to insert fitting protrusions protruding downward from both ends of the elastic body into fitting holes formed at both ends of the film so that radiography is performed while the film is stably coupled to the elastic body.

The present invention has the effect of fixing the film in a more solid state without shaking by pressing the elastic body with the load of the rotating support disc and the magnetic force of the magnet while the film is attached to the object to be inspected.

In addition, the present invention allows radiography to be performed in a state in which the film is stably coupled to the elastic body by inserting a downwardly protruding fitting protrusion below both ends of the elastic body into the fitting holes formed by drilling at both ends of the film, thereby making it more robust and stable. It has the effect of improving the reliability of radiographic examination by allowing a more accurate image to be projected on the film.

In addition, the present invention allows the rotation support disks attached to the object to be inspected by the magnetic force of the magnet to be spaced apart by a simple operation of rotating the rotation support disks at both ends of the rotation axis inserted into the elastic body, thereby achieving the purpose with a simple configuration. This has the effect of reducing the production cost of the film fixing device.

Figure 1 is an overall perspective view of the film fixing device for radiographic examination according to the present invention, showing the elastic body in a state in which the elastic body is not pressed to the surface of the object to be inspected.
Figure 2 is a perspective view looking at the bottom of the film fixing device for radiographic examination according to the present invention.
Figure 3 is an overall perspective view of the film fixing device for radiographic examination according to the present invention, with the elastic body pressed against the surface of the object to be inspected.
Figure 4 is a longitudinal cross-sectional view of the installation state of the film fixing device for radiographic examination according to the present invention, (a) is a view in a state in which the elastic body is not pressed to the surface of the object to be inspected, and (b) is a view in which the elastic body is not pressed to the surface of the object to be inspected. This is a drawing showing the state in which the surface of the test object is pressed.
Figure 5 is a side cross-sectional view of the elastic body of the film fixing device for radiographic examination according to the present invention in a state in which the elastic body is not pressed to the surface of the object to be inspected.
Figure 6 is a side cross-sectional view of the elastic body of the film fixing device for radiographic examination according to the present invention in a state in which the elastic body is pressed against the surface of an object to be inspected.
Figure 7 is an overall perspective view of another embodiment of the film fixing device for radiographic examination according to the present invention.
Hereinafter, the present invention will be described in detail with reference to the attached drawings.

Figure 1 is an overall perspective view of the film fixing device for radiographic examination according to the present invention, in which the elastic body is not pressed to the surface of the object to be inspected, and Figure 2 is a drawing of the film holding device for radiographic examination according to the present invention. Figure 3 is a perspective view looking at the bottom of the film fixing device for radiographic examination according to the present invention, and Figure 4 is a diagram showing the elastic body in a state in which the elastic body is pressed against the surface of the object to be examined, and Figure 4 is a radiographic examination film fixing device according to the present invention. A longitudinal cross-sectional view of the installation state of the inspection film fixing device. (a) is a drawing with the elastic body not pressed to the surface of the test object, and (b) is a drawing with the elastic body pressed to the surface of the test object. It is a drawing, Figure 5 is a side cross-sectional view of the elastic body of the film fixing device for radiographic examination according to the present invention in a state in which the elastic body is not pressed to the surface of the object to be inspected, and Figure 6 is a side cross-sectional view of the film holding device for radiographic examination according to the present invention. This is a side cross-sectional view of the elastic body being pressed against the surface of the object to be inspected.

As shown in Figures 1 and 6, the film fixing device for radiography according to the present invention includes an elastic body 10 made of rubber; A rotating shaft (20A) inserted into an insertion hole (11) formed by drilling in the horizontal direction at the lower center of the elastic body (10); and a rotation support disk 20 of a weight body installed on both ends of the rotation shaft 20A.

The rotation shaft 20A inserted into the insertion hole 11 of the elastic body 10 can be freely rotated by rotating the rotation handle 20B, which will be described later.

It is better to have a cross-shaped pusher 12 that doubles as a handle protruding from the central upper part of the elastic body 10.

The rotation support disk 20 and the rotation shaft 20A are formed of a heavy body made of metal or synthetic resin, and the rotation support disk 20 is preferably provided in the form of an eccentric cam.

The bottom of the elastic body 10 may be in close contact with the surface of the object P due to the load of the rotation support disk 20 and the rotation shaft 20A of the weight body.

A magnet M may be embedded in the center of the top dead center 21 of the rotation support disc 20, or a non-slip uneven pad 30 may be provided at the center of the top dead center 21 of the rotation support disc 20. It can also be provided by landfill.

When the magnet (M) placed at the center of the top dead center (21) of the rotation support disk (20) is interviewed on the surface of the object (P), the rotation support disk (20) is inspected by the magnetic force of the magnet (M). The rotation support disc 20 can be fixed to the surface of the sieve P by magnetic force, or the rotation support disk 20 can be maintained without slipping on the surface of the test object P by using the non-slip uneven pad 30.

Therefore, the elastic body 10 is pressed against the object to be inspected P due to the load of the rotation support disc 20 and the rotating shaft 20A of the weight body and the magnetic force of the magnet M, so that the film (described later) is reliably applied. F) can be maintained attached to the test object (P) without shaking.

A rotation handle 20B capable of rotating the rotation support disc 20 may be protruding at the outer center of each of the rotation support discs 20.

A film (F) capable of detecting defects of the object to be inspected (P) as a defect is placed between the lower surface of the elastic body 10 and the object to be inspected (P), and the bottom of the film (F) is to be inspected. Radiographic examination is performed by keeping the film attached to the surface of the sieve (P). In the present invention, the film (F) is preferably formed by drilling inserting holes (F') at regular intervals at both ends.

At both lower ends of the elastic body 10, downwardly protruding fitting protrusions 13 are arranged at regular intervals, and the fitting protrusions 13 are inserted and fixed into the fitting holes F' of the film F. By performing a radiographic examination, the reliability of the radiographic examination can be improved by allowing a more accurate image to be projected onto the film (F) in a more robust and stable state.

In the drawing, 10-1 is a film guide piece at the bottom of the elastic body 10, and 20A' is a pin for preventing separation.

The present invention of this configuration is to form the film (F) into the elastic body (10) with the top dead center (21) of the rotation support disc (20) positioned at the top, as shown in Figures 1, (a) of Figure 4, and Figure 5. After inserting it into the fitting protrusion 13 and interviewing it on the surface of the test object P, a cross-shaped handle that doubles as a pusher is pressed at the upper center of the elastic body 10 as shown in FIGS. 12), hold the rotation handle (20B) and rotate it to place the lower surface of the magnet (M) placed at the center of the top dead center (21) of the rotation support disk (20) on the surface of the object (P). By conducting an interview and magnetically fixing the rotation support disk 20 to the surface of the object to be inspected (P) by the magnetic force of the magnet (M), the film (F) can be stably attached to the surface of the object to be inspected (P) without shaking. And in this state, a radiographic examination is performed.

After the radiographic examination is completed, hold the rotation handle (20B) and forcibly rotate the rotation support disc (20) to lower the bottom dead center (22) of the rotation support disc (20) as shown in Figures 1, (a) of Figure 4, and Figure 5. When brought close to the surface of the object P, the magnet M disposed at the center of the top dead center 21 of the rotation support disk 20 can be easily separated from the surface of the object P, and the film (F) can be easily separated and removed from the test object (P).

Figure 7 is an overall perspective view of another embodiment of the film fixing device for radiographic examination according to the present invention, which is a radioactive device for application when the surface of the object P is not flat but is curved, such as a pipe, etc. It is intended to provide a film holding device for inspection.

According to this, a curved portion 14 is formed on the lower surface of the elastic body 10 to facilitate the interview with the curved test object P, and the elastic body 10 is used to increase the elastic strain rate of the elastic body 10. A hollow portion 15 is formed in the horizontal direction at the lower center, so that the lower surface of the elastic body 10 is formed by the load of the rotation support disk 20 and the rotation axis 20A of the weight body to form the surface shape of the object P. Accordingly, the pressing force can be improved as it adheres closely.

It should be noted that the detailed description of the present invention described above is merely an example for understanding the present invention and is not intended to define the scope of the present invention. The scope of the present invention is defined by the appended claims, and any simple modification or change of the present invention within this scope should be understood as falling within the scope of the present invention.

10: Elastic body 10-1: Film guide piece
11: Insertion hole 12: Pressing hole for handle 13: Fitting protrusion 14: Curved portion
15: hollow part 20: rotation support disc
20A: Rotation axis 20A': Pin for preventing separation
21: top dead center 22: bottom dead center
30: Non-slip uneven pad F: Film
F': Fitting hole M: Magnet
P: Blood test object

Claims (6)

An elastic body 10 made of rubber;
A rotating shaft (20A) inserted into an insertion hole (11) formed by drilling in the horizontal direction at the lower center of the elastic body (10); and
It includes a rotation support disk 20 of a weight body installed on both ends of the rotation shaft 20A,
The rotation support disk 20 is in the form of an eccentric cam, and the magnet M installed at the top dead center 21 of the rotation support disk 20 is brought into contact with the surface of the object P to be inspected. It is characterized by suppressing the elastic body (10) with the double load of (20) and the magnetic force of the magnet (M) to fix the film (F) placed between the elastic body (10) and the test object (P) without shaking. A film fixing device for radiographic examination. The film fixing device for radiographic examination according to claim 1, wherein a non-slip uneven pad (30) is embedded in the center of the top dead center (21) of the rotation support disc (20). According to paragraph 1,
The film (F) is a film fixing device for radiographic examination, characterized in that the film (F) is formed by drilling insertion holes (F') at both ends at regular intervals. According to paragraph 1,
A film fixing device for radiographic examination, characterized in that the insertion protrusions (13) are protruded downward from both lower ends of the elastic body (10) at regular intervals. According to paragraph 1,
A radiographic examination is performed by fixing the downwardly protruding fitting protrusions 13 at both lower ends of the elastic body 10 by inserting them into the fitting holes F' of the film F. A film fixing device for radiographic examination, characterized in that. According to paragraph 1,
A film fixing device for radiographic examination, characterized by forming a curved portion (14) on the lower surface of the elastic body (10) and forming a hollow portion (15) in the horizontal direction at the lower center of the elastic body (10).

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