KR20180039843A - Radiographic Testing Apparatus using Radiation Inspection - Google Patents

Abstract

The present invention relates to a non-destructive test device used to perform a radiographic test by being installed in a cylindrical structure. The non-destructive test device enables a user to perform the radiographic test many times by installing the non-destructive test device once and can minimize radiographic exposure of workers around the test by having a radiation shielding function. The non-destructive test device includes: a rail (110) installed along the circumference of the cylindrical structure; a radiation source device (120) installed to move along the rail (110) and having a radiation source; a test film device (130) installed to move by being linked with the radiation source device (120) and including a test film in order for the test film to be attached to the cylindrical structure by being exposed when the test film device moves; a test film collection device (140) installed to collect the test film exposed in the test film device (130); and a penetrameter (150) installed to move by being linked with the test film device (130) and deciphering a radiation photographing position by the radiation source device (120) on the test film exposed by the test film device (130), wherein the penetrameter (150) also deciphers sensitivity of the test film.

Description

Technical Field [0001] The present invention relates to a non-destructive inspection apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nondestructive inspection apparatus, and more particularly, to a nondestructive inspection apparatus which can be installed in a cylindrical structure to perform radiographic inspection.

Radiation penetration test can be applied to all pipe materials and it is widely used because of its high clarity. However, exposure of light source is harmful to people, and the kind of light source and exposure time are strictly restricted according to the domestic and overseas Atomic Energy Act.

Conventional radiographic inspection devices consist of a radioactive light source, a radiation film, and a permeability meter. A person manually sets the position of a light source and a radiation film, and installs a permeability meter at an appropriate place.

One or more radiographs are performed at the time of performing the radiation penetration test on one weld, and when done, the person is repeatedly installed on the light source, the radiation film and the permeability meter.

When the radiation source is emitting, only one radiation penetration test can be performed in one area because the human access is limited around the radiation source. According to the Korean Atomic Energy Act, when 1μSv / hr is exceeded, the public access to the public is controlled by 100m.

As a related art patented technology, A ring-shaped detector arranged side by side with the support for inspecting the pipe; A driving unit for moving the supporting unit and the detecting unit in the longitudinal direction of the pipe; And a control unit for controlling the support unit, the detection unit, and the driving unit, wherein the detection unit includes a fixing module capable of fixing the pipe, and a detection module rotatably installed along an inner circumferential surface of the pipe, There is proposed a non-destructive inspection apparatus in which the detection module moves along the inside of the detection unit and the outside of the pipe to inspect the pipe while the pipe is fixed by the fixing module.

An ultrasonic inspection apparatus for nondestructive inspection of a welded portion of a piping structure, comprising: a main body fixed on the piping; A fixed arm extending from the main body along the longitudinal direction of the pipe; A movable arm which is linearly movable along the longitudinal direction of the pipe to the stationary arm and is rotatably installed along the circumferential direction; And a probe provided at an end of the movable arm for scanning the welded portion with ultrasonic waves.

Korean Patent No. 10-1499163 Domestic registration room 20-0406125

The present invention relates to an apparatus and a method for measuring a plurality of times of radiographic penetration through a single apparatus when the inspector approaches a plurality of times and approaches and adjusts to a light source and a film when two or more radiographic tests are required for the object to be inspected, It is an object of the present invention to provide a nondestructive inspection apparatus through radiation penetration inspection which can minimize radiation exposure of workers around the inspection.

According to another aspect of the present invention, there is provided a nondestructive inspection apparatus for a nondestructive inspection apparatus installed on a cylindrical structure for performing a radiographic inspection, the apparatus comprising: a rail installed along an outer circumference of a cylindrical structure; and; A radiation source device mounted with a radiation source and movable along the rail; An inspection film device installed to be movable in conjunction with the radiation source device and having an inspection film incorporated therein so as to be exposed to the inspection film during movement; An inspection film collection device installed to collect inspection films exposed in the inspection film device; And a permeability meter installed to move in cooperation with the inspection film device and reading the radiation imaging position by the radiation source device with respect to the inspection film exposed in the inspection film device and reading the sensitivity of the inspection film .

Here, the radiation light source mounted on the radiation source device is adjustable in angle.

In addition, the radiation light source mounted on the radiation source device may be gamma ray or X-ray.

In addition, the radiation source device, the inspection film device, and the inspection film collection device may have a radiation shielding function.

In addition, the cylindrical structure may be a pipe, and the radiation source device may be installed to be movable along a pipe weld.

In addition, the film reservoirs of the radiation light source device, the inspection film device, and the inspection film recovery device may be installed so as not to be exposed to the radiation light source.

According to the present invention, it is possible to perform a plurality of times of radiographic inspection through one installation. In addition, when using multiple devices, multiple tests can be performed simultaneously in the same space. In addition, the conventional light source and inspection film can be used as they are. Since the radiation shielding function is provided, radiation exposure of workers around the inspection can be minimized.

1 is a conceptual diagram of a nondestructive inspection apparatus through a radiographic inspection according to the present invention.
2 and 3 are schematic views illustrating the installation of the nondestructive inspection apparatus through the radiographic inspection according to the present invention.
4 is a conceptual diagram of an inspection film apparatus according to the present invention.
5 is a conceptual diagram of an inspection film collection device according to the present invention.
FIG. 6 is a use state of a nondestructive inspection apparatus through a radiographic inspection according to the present invention. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a conceptual view of a nondestructive inspection apparatus through a radiographic inspection according to the present invention, FIGS. 2 and 3 are installation conceptual views of a nondestructive inspection apparatus through a radiographic inspection according to the present invention, FIG. 5 is a conceptual diagram of an apparatus for recovering a test film according to the present invention, and FIG. 6 is a state of use of a nondestructive testing apparatus through a radiographic test according to the present invention.

The nondestructive inspection apparatus through the radiographic inspection according to the present invention is characterized in that when the inspection object needs to be inspected twice or more times, it is necessary for the inspector to approach the light source and the film after several approaches, And that it has a radiation shielding function.

As shown in the drawing, the apparatus for nondestructive testing through a radiographic inspection according to the present invention is a nondestructive inspection apparatus installed in a cylindrical structure to perform radiographic inspection, and includes a rail 110, a radiation source apparatus 120, An inspection film device 130, an inspection film recovery device 140, and a permeability meter 150.

The rails 110 are installed along the outer circumference of a cylindrical structure such as a pipe. At this time, the rail 110 is installed so that the radiation source device 120 installed to be movable along the rail 110 can move along the inspection part (for example, welding part) of the inspection object. When a radioactive shielding is required for a wide section, a rail is additionally provided as shown in a dotted line in the right drawing of FIG. 3, and a cover for radiation shielding of the inspection film device 130 and the inspection film recovery device 140 is attached to the cylindrical structure So that the radiation shielding ratio can be increased by extending in the longitudinal direction.

The radiation source device 120 is installed to be movable along the outer circumference of the circular structure along the rail 110, At this time, the radiation source device 120 can be automatically moved by a driving means such as a motor, a gear, a belt, or the like.

On the other hand, basically, the radiation angle of the radiation source is fixed so as to be fixed, but it can be mounted so that the angle can be adjusted as needed. Further, the radiation light source mounted on the radiation light source device 120 may be gamma ray or X-ray. The radiation source device 120 has a radiation shielding function. In case of radioactivity shielding for a wide section, additional mobile rails can be installed.

 The inspection film device 130 is installed along the outer surface of the cylindrical structure so as to be movable in conjunction with the radiation source device 120. The inspection film device 130 may include an unused inspection device Film is built in. The inspection film device 130 also has a radiation shielding function.

In the test film jet port, a bonding device may be installed so that a test pens and a permeability meter can be attached to the outer surface of the circular structure.

The inspection film collection device 140 is installed to collect and store inspection films exposed in the inspection film device 130. That is, the function of erasing and storing the photographed inspection film is performed. If radioactivity shielding is required for a wide section, it can be extended. The inspection film collection apparatus 140 also has a radiation shielding function.

The transmissivity meter 150 is installed to be movable in conjunction with the inspection film device 130. The radiographic position of the inspection film exposed in the inspection film device 130 is read by the radiation source device 120 And reads the sensitivity of the inspection film.

Meanwhile, the rail 110, the inspection film device 130, and the inspection film recovery device 140 may be additionally and extensively installed for shielding radiation.

It is preferable that the film reservoirs of the radiation source device 120, the inspection film device 130, and the inspection film recovery device 140 are not exposed to the radiation source.

A method of using the nondestructive testing apparatus through the radiographic inspection according to the present invention will be described.

The nondestructive inspection apparatus that has been installed completes the radiation test automatically while rotating 360 degrees along the rail 110. The moving angle, inspection film device 130 and inspection film recovery device 140 vary according to the diameter of the circular structure.

A case in which the image is photographed three times along the outer circumference to be inspected will be specifically described. The radiation source device 120 is installed so that the rail 110 is installed on the inspection object P which is a circular structure and can move along the rail 110. The inspection film device 130 is installed so as to cover about 1/3 of the periphery of the inspection object P so that the inspection film device 130 can move in conjunction with the radiation light source device 120, 3/4 of the circumference.

As the radiation source apparatus 120 moves, the inspection film built in the inspection film apparatus 130 is exposed to the outside when the inspection film apparatus 130 is moved. At this time, in order to accurately read the position of the inspection film, The permeability meter 150 is installed so as to be movable in conjunction with the pressure sensor 140.

When the inspection film is exposed to a predetermined size (about 1/3 of the periphery of the inspection target P, 120 degrees), the radiation source device 120 stops and radiographs the inspection film. Since the inspection film device 130 and the inspection film recovery device 140 store the film before and after the inspection, it has a function of shielding the radiation for protection of the film. As shown in FIG. 6, Store the film in position.

INDUSTRIAL APPLICABILITY As described above, according to the present invention, it is possible to perform a plurality of times of radiographic inspection through one installation. In addition, when using multiple devices, multiple tests can be performed simultaneously in the same space. It also has a radiation shielding function to minimize radiation exposure by workers around the test.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And various alternatives, modifications, and alterations can be made within a range.

Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

110: rail 120: radiation source device
130: inspection film device 140: inspection film recovery device
150: Transmittance meter

Claims (6)

A nondestructive inspection apparatus installed in a cylindrical structure for performing a radiographic inspection,
A rail 110 installed along an outer periphery of the cylindrical structure;
A radiation source device 120 mounted with a radiation source and installed to be movable along the rail 110;
An inspection film device 130 installed to be movable in conjunction with the radiation source device 120 and having an inspection film embedded therein so that the inspection film is exposed when the inspection film is moved to the cylindrical structure;
An inspection film collection device 140 installed to collect inspection films exposed in the inspection film device 130;
The position of the radiographic light source device 120 is read from the inspection film exposed in the inspection film device 130 so as to be movable in conjunction with the inspection film device 130 and the sensitivity of the inspection film is read Wherein the apparatus comprises a transmission meter (150) for performing a radiographic inspection. The method according to claim 1,
Wherein the radiation source mounted on the radiation source device (120) is adjustable in angle. The method according to claim 1,
Wherein the radiation source mounted on the radiation source device (120) is gamma ray or X-ray. The method according to claim 1,
Wherein the radiation source device (120), the inspection film device (130), and the inspection film recovery device (140) have a radiation shielding function. The method according to claim 1,
Wherein the cylindrical structure is a pipe,
Wherein the radiation source device (120) is installed so as to be movable along a pipeline welded portion. The method according to claim 1,
Wherein the film reservoirs of the radiation light source device (120), the inspection film device (130), and the inspection film recovery device (140) are installed so as not to be exposed to the radiation light source.

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