KR101659482B1 - Shielding devic for non-destructive - Google Patents

Abstract

The present invention relates to a radiation shielding apparatus, and more particularly, to a shielding apparatus for shielding a radiation hazard by performing a radiation inspection (nondestructive inspection) on a gas pipe buried in the ground, And more particularly, to a radiation shielding apparatus capable of performing safe and rapid radiographic inspection without repeated vertical movement.
In order to achieve the above object, the present invention provides a rectangular frame 110 having a rectangular shape, and a pair of female / male shields 200 and 300 supported at both sides of the rectangular frame, A supporting frame body 100 on which a frame 120 is formed; An arm / water shield 200 (300) provided on the inside of the support frame body (100) and slidably moved to the left / right to shield radiation or provide an access path; And a height adjusting leg (400) for supporting the lower end of the supporting frame body (100) and adjusting the height of the supporting frame body (100) up and down.

Description

[0001] SHIELDING DEVIC FOR NON-DESTRUCTIVE [0002]

The present invention relates to a radiation shielding apparatus, and more particularly, to a radiation shielding apparatus for shielding a radiation hazard by performing a radiation inspection (nondestructive inspection) on a gas pipe buried in the ground by using a crane The present invention relates to a radiation shielding apparatus for non-destructive inspection capable of safely and rapidly performing radiation penetration inspection without repeated vertical movement.

Generally, in the construction of outdoor buried piping such as a high pressure gas pipe, the connection between the pipe and the pipeline is installed by welding. At this time, the non-destructive inspection is performed with the legal requirements such as the high-pressure gas method.

Radiographic testing (RT: Radiographic Testing) is used to check internal defects in manufactured or manufactured products similar to the way we check for abnormalities in the bones and organs inside the body by X-ray examination at the hospital. It is a very useful method to check the internal defects of a product by photographing a gamma ray of radiation emitted from a radioactive material and analyzing the blackness by developing and printing it.

However, in radiation examination, radiation is inevitably used. Radiation is harmful to the human body and should be managed to minimize exposure to the human body.

The shield used to perform the radiographic inspection of the piping had a collimator that reduces the amount of radiation backward by 1/10, but the limit of the recently revised radiation safety control ordinance is limited by the collimator It is a reality that there is a need to reduce the radiation exposure around the lead around the test object with excellent shielding ability.

In particular, gas pipelines are subjected to three or more radiological penetration tests at each welding site. Radiation penetration of 3 to 7 times is required depending on the size of the piping.

However, the conventional method of using the shielding lead is troublesome to install every time of shooting and the work efficiency is lowered. In order to meet the dose limit required by the law, a thick lead shield is required.

In order to solve this problem, a wire rope (not shown in the figure) and a film (not shown in the figure) are installed on the inspection site of the gas pipe line 4 as shown in Figs. 1A and 1B 3 is placed on the gas pipe 4 in a state of being fixed to the crane 5 by hooking it on the rope hook 2 formed on the car body 1 and then the irradiator (not shown in the figure) The worker changes the position of the source and the film to another inspection site in a state where the vehicle body 1 fixed to the crane 5 is placed on the upper part of the gas pipe line 4 again, (4) and the irradiation of the irradiator is performed to perform the radiographic examination.

However, there is a risk of falling due to the fact that the existing heavy weight shield is moved up and down with fixed to the crane. It is troublesome to raise and lower the shielding body up and down every time the position of the inspection part is changed, So that the working efficiency is lowered.

In addition, when the shielding body is placed on the floor, there is a problem that the radioactivity is leaked because the shielding body is placed in an inclined state without being precisely leveled.

In addition, there is a problem that the work efficiency is inferior due to an increase in work time as well as troublesomeness in replacing the shield with a different height depending on the size of the piping or the depth of the piping buried in the ground.

Korea Utility Model Registration No. 0321437 has been registered. Korea Utility Model Registration No. 0321442 has been registered.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art as described above, and it is an object of the present invention to provide a rope hanger, a fixing pin, a leveling instrument, a guide rail, And a height adjustable leg for adjusting the height of the support frame body, and a height adjustable leg provided between the support frame body and the height adjustable legs. And a second object of the present invention is to provide a hydraulic cylinder which is capable of preventing a worker from directly moving the arm / It is possible to change the position of the crew and the film easily and quickly according to the inspection area, The third purpose is to prevent a large accident by preventing the crane from falling down because it does not move up and down every time the inspection position is changed in a state where the shield is suspended from the crane. The fifth object is to adjust the horizontal level of the radiation shielding device according to the topography. The sixth object is to improve the quality and reliability of the product The present invention provides a radioactive shielding apparatus for nondestructive inspection that can satisfy a variety of needs (needs) of a user as a user and provide a good image.

According to an aspect of the present invention, there is provided a rectangular frame, comprising: a frame body having a rectangular frame formed on both sides of the frame, the frame having a support frame for supporting a pair of female / male shields slidably; A female / male shield provided inside the support frame body and slidably moved leftward / rightward to shield the radiation or provide an access path; And a height adjusting leg supporting the lower end of the support frame body and adjusting the height of the support frame body up and down.

As described above in detail, according to the present invention, there is provided a support structure, comprising: a support frame body having a rectangular support frame having a rectangular shape with an inner space, and vertical support frames formed on both sides of the horizontal support frame; A female / male shield which is slidably provided on the left / right inner side of the support frame body to shield radiation; And a height adjusting leg for supporting and supporting a lower end of the support frame body and adjusting a height of the support frame body.

The effect of the present invention based on the technical structure described above can be achieved by providing a simple and quick location of the source and film according to the inspection region while slidably moving the arm / So that it can be inspected.

Further, the height of the shielding body can be adjusted according to the position of the inspection region of the gas pipe.

In addition, a horizontal system is provided on the supporting frame so that the level of the radiation shielding device can be precisely adjusted according to the terrain.

The present invention greatly improves the quality and reliability of a product due to the above-mentioned effects, and thus is a very useful device that can provide a good image by satisfying various needs of users who are users.

FIG. 1A is a perspective view of a used state in which a shield is suspended from a crane for inspecting a gas pipe line. FIG.
FIG. 1B is a perspective view of a used state in which a shield is suspended from a crane in the state of FIG. 1A; FIG.
2 is a perspective view showing the entirety of the radiation shielding apparatus for nondestructive inspection of the present invention.
3 is an exploded perspective view showing the entirety of the radiation shielding apparatus for nondestructive inspection of the present invention.
4 is a partially enlarged perspective view showing the support frame body of the radiation shielding apparatus for nondestructive inspection according to the present invention.
5 is a perspective view showing an arm / water shield of a radioactive ray device for non-destructive inspection according to the present invention.
6 is a perspective view showing a height adjusting leg of the radiation shielding apparatus for non-destructive examination according to the present invention.
7 is a side view showing a closed state of the female / male shield of the radioactive shielding apparatus for non-destructive examination of the present invention.
8 is a side view showing a state in which the arm / water shield of the radiation shielding apparatus for nondestructive inspection of the present invention is opened.
FIG. 9 is a side view showing a state in which the supporting frame body of the radiation shielding apparatus for nondestructive examination according to the present invention is raised to the upper part. FIG.
FIG. 10A is a use state showing a state in which the radioactive shielding apparatus for nondestructive inspection of the present invention is suspended from a crane; FIG.
FIG. 10B is a state of use in which the radioactive shielding apparatus for nondestructive inspection of the present invention is suspended from a crane; FIG.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

In the following description of the present invention, 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.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

2 and 3, a rectangular frame 110 is formed in a rectangular shape. A pair of female / male shields 200 (300) are formed on both sides of the rectangular frame 110 And a support frame 120 for supporting the support frame 120 so as to be slidable.

A plurality of rope hooks 111 are provided at the upper end of the corner of the rectangular frame 110 so that the wire rope 3 is hooked thereon. A pair of rope hooks 111 And a support piece 112 for supporting both ends of a guide member 113 having a pair of fixing pins 114a and 114b for fixing the female / male shield 200 and 300, respectively.

A horizontal system 115 is further provided at the center between the pair of fixing pins 114a and 114b provided on the guide member 113 to check whether the supporting frame body 100 is horizontal or not.

The support frame 120 is formed with a pair of first vertical frames 121 and a first horizontal frame 122 is provided between the first vertical frame 121 and the first vertical frame 121, Respectively.

At this time, an opening 121a through which the second vertical frame 410 of the height adjusting leg 400 is inserted is formed at each lower end of the first vertical frame 121, The first horizontal frame 122 is formed with a first hole 121b through which the fixing bolts 123 are inserted so that the pair of arms 200 can be slidably supported by the upper center of the first horizontal frame 122 A guide rail 122a is formed.

The arm / water shield 200 and 300 are horseshoe-shaped as a whole. Sliding members 210 and 310 are provided at the upper center of the arm / And a pair of grips 220 and 320 are formed on both sides.

Fixing grooves 211 and 311 are formed in the upper ends of the sliding members 210 and 310 so that the fixing pins 114 provided in the guide members 113 are inserted and fixed.

The protrusion insertion portion 200a is formed at one end of the female shield 200 to be inserted into and coupled to the coupling protrusion 300a formed at one end of the male shield 300,

An engaging projection 300a is formed at one end of the male shield 300 to be inserted into the female engaging portion 200a formed at one end of the female shield 200 to be engaged therewith.

The lower ends of the arm / water shields 200 and 300 are closely attached to the upper end of the first horizontal frame 122 and have coupling projections 200a and 200a formed on the arm / The lower end of the projection insertion portion 300a is slidably mounted on the guide rail 122a protruding from the upper center of the first horizontal frame 122. The lower end of the projection insertion portion 300a is inserted / Water shields 200 and 300. In this case,

Also, it is preferable that the arm / water shield 200, 300 is made of a steel plate, and a plurality of leads are provided inside the arm /

The height adjustment leg 400 is formed with a pair of second vertical frames 410 inserted into the openings 121a formed at the lower ends of the pair of first vertical frames 121, A second horizontal frame 420 is provided between the vertical frame 410 and the second vertical frame 410.

A fixing bolt 123 passing through a first hole 121b formed in each of the pair of first vertical frames 121 passes through the upper portion of the pair of second vertical frames 410, A plurality of second holes 411 are formed and a plurality of support legs 412 are formed at a lower end thereof.

The hydraulic cylinder 500 is provided at both sides of the support frame body 100 and the height adjustment leg 400 to adjust the height of the support frame body 100 by moving the support frame body 100 up and down. A first support plate 510 is provided to support the support frame body 100 and a second support plate 520 is provided to support the hydraulic cylinder 400 at a lower portion thereof.

A method of using the radioactive shielding apparatus for nondestructive inspection according to the present invention having the above-described structure, and its effect will be described below.

First, as shown in FIGS. 10A and 10B, in order to perform a non-destructive inspection (radiation penetration test) on the welded portion W of the gas pipe line 10 buried in the ground, The wire rope 3 is hooked on each of the rope hooks 111 and then the wire rope 3 hooked on each of the rope hooks 111 is pulled up by using the crane 5 to weld the welded portion W So that the welding portion W of the gas pipe 4 is installed between the arm / water shield 200 and the arm 300.

9, the hydraulic cylinder 500 provided between the supporting frame body 100 and the height adjusting leg 400 is driven according to the height of the gas pipe line 4 buried in the ground, And the height of the frame body 100 can be adjusted by moving the frame body 100 up and down.

A first support plate 510 is provided on the upper portion of the hydraulic cylinder 500 to stably support the support frame body 100 and a second support plate 520 is provided at a lower portion of the hydraulic cylinder 500 to stably support the hydraulic cylinder 500. [ As well as to fix it.

In addition, the support frame body 100 is provided with a leveling unit 115 on its upper part so that it can be installed horizontally even on an uneven floor.

Then, the pair of grips 220 and 320 formed on the arm / water shield 200 and 300 are pushed by the both ends of the support frame body 100, The worker can place the welder S and the film (not shown) on the welding portion W of the gas pipe 4 to be inspected through the entrance 10 after the entrance 10 is formed, F) is installed. When the installation is completed, the pair of grips 220 and 320 formed on the arm / water shield 200 and 300 are gripped to the center of the support frame body 100, The locking protrusion 310 protruding from the water shield 300 is inserted into the protrusion insertion portion 210 formed in the female shield 200 and inserted into the fixing pin 114a And then inserted into the fixing grooves 211 and 311 formed in the sliding members 210 and 310 provided in the arm / water shield 200 and 300, respectively, Activate the connected irradiation device (not shown in the figure).

Accordingly, the radiation emitted from the source S disposed inside the arm / water shield 200 (300) is prevented from leaking to the outside.

Then, when the radiation penetration test is completed, the fixing pins 114a and 114b inserted into the fixing grooves 211 and 311 of the sliding members 210 and 310 are pulled out and then the arm / The operator grips the pair of handles 220 and 320 formed on the support frame body 300 to push the support frame body 100 toward the both ends of the support frame body 100 to form the entrance 10 and then the operator performs the radiation penetration test through the entrance 10 A pair of grips 220 formed on the arm / water shield 200 and 300 after changing the position of the source S and the film F on the weld W of another gas pipe 4 to be welded, And the protrusions 320 protruded from the protrusions 300 to the protrusions 210 formed on the protrusions 200 by pushing the protrusions 200 and 300 to the center of the protrusive framework 100, After the coupling protrusions 310 are inserted and coupled, an irradiation device (not shown) connected to the source S is operated to perform a radiation penetration test.

That is, in the case where the radiation penetration test is to be carried out according to the inspection site of the welded portion W of the gas pipe line 10, the radioactive shielding body 1 is repeatedly used in the same manner as described above. It is troublesome to repeatedly move the shielding body 1 up and down using the crane 5 every time the position of the source S and the film F is changed according to the inspection site of the gas pipe 4 while hanging The operator is required to perform work under the shield 1 hanging from the crane 5, thereby eliminating the risk of falling.

In addition, the effect of the present invention with the above-described technical structure is achieved by sliding the arm / water shield 200 (300) left and right while opening and closing the gas / water shield 200 once installed in the gas pipe 4 buried in the ground, The position of the source S and the film F can be easily and quickly changed and inspected according to the inspection region of the welded portion W of the wafer 4.

Further, the height of the arm / water shield 200 (300) can be adjusted according to the position of the inspection part of the gas pipe line (4).

In addition, the supporting frame body 100 is provided with a leveling system 115 so that the level of the radiation shielding apparatus 1000 can be precisely adjusted according to the terrain.

The technical idea of the radiation shielding apparatus for nondestructive inspection according to the present invention is that the same results can be repeatedly practiced. Especially, by carrying out the present invention as described above, it is possible to contribute to industrial development by promoting technological development.

100 - support frame body 200 - female shielding component
300 - water shield 400 - height adjustment leg
500 - Hydraulic cylinder 1000 - Radiation shielding

Claims (7)

A square frame 110 is formed in a rectangular shape and a support frame 120 supporting and supporting a pair of female / male shields 200 and 300 slidably is formed on both sides of the rectangular frame. An arm / water shield 200 (300) provided on the inner side of the support frame body (100) and slidably moved to the left / right and shielding radiation or providing an access path (10); And a height adjusting leg (400) for supporting a lower end of the supporting frame body (100) and adjusting the height of the supporting frame body (100) up and down, the radiation shielding apparatus for non - destructive inspection comprising:
A plurality of rope hooks 111 are provided at upper ends of the square frames 110 so that the wire rope 3 is hooked thereon. Between the rope hooks and the rope hooks, the pair of arm / And a support piece 112 for supporting both ends of a guide member 113 provided with a pair of fixing pins 114a and 114b for fixing the support pins 300 to each other,
A leveling unit 115 is further provided at a center between the pair of fixing pins 114a and 114b provided on the guide member 113 to check whether the supporting frame body 100 is horizontal,
The arm / water shield 200 and 300 are generally horseshoe shaped and are provided with sliding members 210 and 310 to be slid at the center of the upper end of the arms 200 and 300. Both sides of the sliding members 210 and 310 A pair of knobs 220 and 320 are formed on the upper surface of the slide member 210. A fixing pin 114 provided on the guide member 113 is inserted into each of the upper ends of the sliding members 210 and 310, The protrusion insertion portion 200a is formed at one end of the female shield 200 so as to be inserted into the coupling protrusion 300a formed at one end of the male shield 300, An engaging protrusion 300a is formed at one end of the female connector 300 to be inserted into the protrusion insertion portion 200a formed at one end of the female shield 200,
The hydraulic cylinder 500 is provided at both sides of the support frame body 100 and the height adjustment leg 400 to adjust the height of the support frame body by moving the support frame body up and down. A first support plate 510 is provided to support the mold body 100 and a second support plate 520 is provided at a lower portion to support the hydraulic cylinder 400,
The support frame 120 is formed with a pair of first vertical frames 121, and a first horizontal frame 122 is provided between the first vertical frame and the first vertical frame, The vertical frame 121 has an opening 121a through which the second vertical frame 410 of the height adjusting leg 400 is inserted and a fixing bolt 123 is inserted through the opening. And a guide rail 122a is formed at an upper center of the first horizontal frame 122 so as to support the pair of arm / Lt; / RTI &
The height regulating leg 400 is formed with a pair of second vertical frames 410 inserted into openings 121a formed at the lower ends of the pair of first vertical frames 121, And a second horizontal frame 420 is provided between the second vertical frame 410 and the second vertical frame 410. The second vertical frame 410 is formed on the upper portion of the pair of second vertical frames 410, A plurality of second holes 411 are formed to penetrate and fix the fixing bolts 123 penetrating through the first holes 121b and the support legs 412 are formed at the lower ends thereof. Device. delete delete delete delete delete delete

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