KR101579204B1 - Lead Beads radiation shielding device - Google Patents

Abstract

The present invention relates to a device (100) to shield radiation by being installed in a pipe. The device (100) to shield radiation comprises: a donut-shaped casing (110) including a hollow part (110a) storing a pipe while including an empty space part (110b) outside; upper and lower casing parts (111,112) including lead beads (120) placed in the space part (110b), and forming a donut shape by being combined with the casing (110); and opening parts (113,114) formed in the upper and lower casing parts (111,112) to allow the lead beads (120) to be inserted into the space part (110b) or allow the lead beads (120) to be taken from the space part (110b). According to the present invention, the present invention is easily applied to variously sized pipes, is repeatedly used, has an excellent handling property, and enables efficient radiation shielding for an RT test part. In other words, since the lead beads of the lead bead radiation shielding device are stored and used in a box in a site and a worker prepares only a casing of a test target pipe, handling and storage are easy. Since only the casing is manufactured according to the pipe, the lead beads are able to be applied to any type of pipe, and therefore, the present invention is able to be durably used and to efficiently shield radiation.

Description

{Lead Beads radiation shielding device}

The present invention relates to radiation shielding, and more particularly, to a lead bead radiation shielding apparatus capable of efficiently shielding radiation of an RT inspection unit of a pipe.

Radiation restrictions are being strengthened in relation to RT (Radiographic Testing) inspection in Nuclear Safety Act. The RT worker standard is less than 10 μ㏜ / hr (microsievert), the general worker standard is less than 1 μ㏜ / hr, and the general worker access control is changed within a radius of 30 m and a radius of 100 m.

For reference, the RT test is a method of detecting defects by recording the difference in intensity on the film due to the change in the intensity of the transmitted radiation, that is, the difference between the penetration dose of the dry part and the defect part, when the radiation is irradiated on the specimen And a method for detecting defects such as welded parts such as pipes and castings.

In the past, in the RT inspection of field pipelines, the inspection section was not shielded, but the general worker limit zone was set based on the allowable radiation exposure limit, the restricted zone was marked and the access was restricted. . Or work in an RT room made of concrete, or work to build a shielding device thicker with lead.

However, in order to improve the productivity, it is necessary to perform a simultaneous inspection at a narrow radius and to shrink the general worker restricted area as well as a shielding technique that can be widely applied to piping of various sizes in the field.

For reference, lead is an effective and economical shielding material that can shield radiation. For example, to reduce the radiation intensity to about 1/8 of the RT measurement part of a 100A pipe, the thickness of the lead shield is about 18mm and the size is 400mm * If it is 270mm, the weight is about 22kg, so there is a lot of difficulty in handling such as installing in various sizes of piping.

Korean Patent Laid-Open No. 2009-0110398 (October 22, 2009; radiation shielding material) Korean Laid-Open Patent No. 2013-0019142 (Feb. 26, 201, radiation shielding sheet)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a lead bead radiation shielding device capable of being easily applied to various sizes of piping, The purpose is to provide.

In order to accomplish the above object, a lead bead radiation shielding apparatus according to the present invention is a device for shielding radiation by providing a pipeline to shield radiation, comprising: a hollow portion capable of receiving a pipe; A donut-shaped casing; And a lead bead to be filled in the space portion, wherein the casing includes upper and lower casing portions coupled to form a donut shape; And an opening formed in each of the upper and lower casing portions so that the lead bead is inserted into the space portion or the lead bead is taken out from the space portion, the upper and lower casing portions being coupled to each other by a hinge, And a casing holder for fixing the upper and lower casing portions to the piping, wherein the lead beads are formed of lead beads having different sizes.

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Further, the casing may be made of a hard metal.

Further, the casing may be made of reinforced plastic.

In addition, a collimator can be mounted in the space.

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INDUSTRIAL APPLICABILITY According to the present invention, it is possible to easily apply to pipings of various sizes, to use repeatedly, to have excellent handling properties, and to effectively shield radiation of the RT inspection unit. In addition, the lead beads of the lead bead radiation shielding device are stored in a box provided in the field, and only the casing of the inspection target pipe is prepared by the inspection worker. Therefore, it is easy to handle and store, Can be applied to any type of piping, and can be used easily and durably, effectively shielding radiation.

Further, since the radiation irradiated on the pipe is repeatedly moved between the shield and the pipe, it is scattered and then extinguished, so that a better shielding effect can be obtained.

1 is a conceptual diagram of a lead bead radiation shielding apparatus according to the present invention;
2 is a use state diagram of a lead bead radiation shielding apparatus according to the present invention.
FIG. 3 is a view showing the state of use of lead beads according to the present invention. FIG.
4 is a view for explaining a shielding effect by a shield.

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 diagram of a lead bead radiation shielding apparatus according to the present invention, FIG. 2 is a state of use of the lead bead radiation shielding apparatus according to the present invention, FIG. 3 is a use state of lead bead according to the present invention, Fig.

The lead bead radiation shielding apparatus according to the present invention is capable of being easily applied to piping of various sizes, being usable repeatedly, having excellent handling properties, and being capable of effectively shielding radiation against the RT inspection unit.

As shown in FIG. 1, a lead bead radiation shielding apparatus 100 according to the present invention is installed in a pipe to shield radiation, and includes a cylindrical casing 110 and a casing 110 Lead beads 120 are formed.

Reference numeral 'S' denotes a Suurce guide tube for guiding the radiation source head from the outside to the test body. Reference numeral 'C' denotes a source guide tube installed at the tip of the source guide tube S, And a collimator for holding the radiation source head moved from the head (S) inside and keeping the gap therebetween to irradiate the specimen with radiation.

The casing 110 has a donut shape as a whole, a hollow portion 110a capable of receiving the pipe P, and an empty space portion 110b inside.

At this time, the casing 110 includes upper and lower casing parts 111 and 112 which are coupled to form a donut shape, and the lead beads 120 are filled in the space part 110b, And opening portions 113 and 114 formed in the upper and lower casing portions 111 and 112 so as to take out the beads 120, respectively.

The upper and lower casing parts 111 and 112 are connected to the upper and lower casing parts 112 and 113 so that the upper casing part 111 can be coupled to the lower casing part 112 or the upper casing part 111 can be separated from the lower casing part 112. [ (Not shown).

The apparatus may further include a casing holder 140 for fixing the upper and lower casing parts 111 and 112 to the piping P after coupling the upper and lower casing parts 111 and 112.

The casing 110 may be made of a rigid material so as to maintain its external shape, and may be made of a hard metal such as stainless steel or a reinforced plastic.

The collimator is suitably mounted in the space portion 110b of the casing 110. [

On the other hand, as shown in Fig. 4, the radiation irradiated on the pipe P is theoretically lost between the shield S and the pipe P after repeatedly scattering and disappearing.

In the case of the lead beads 120, as shown in FIG. 3, lead beads of the same size may be used, but lead beads having different sizes may be used in order to minimize the void space.

A method of using the lead bead radiation shielding apparatus 100 according to the present invention will be described.

After the casing 110 is installed in the pipe P and the casing 110 is fixed to the casing holder 140, the lead beads 120 are appropriately filled in the space portion 110b through the openings 113 and 114, (113, 114) is closed, and then the RT measurement is performed.

As described above, when the lead bead radiation shielding apparatus 100 according to the present invention is used, it can be easily applied to the piping P of various sizes, and can be repeatedly used, Thereby enabling efficient radiation shielding for the RT inspection unit. That is, the lead beads 120 of the lead bead radiation shielding apparatus 100 can be stored in a box provided in the field, and only the casing 110 of the inspection target pipe P is prepared by the inspection worker, This is easy.

In addition, if only the casing 110 is manufactured according to the size of the pipe P, the lead bead 120 can be applied to any type of pipe P and can be used easily and durably. do.

In addition, since the radiation irradiated on the pipe P is scattered while repeatedly moving between the lead pellets 120, which are the shield, and the pipe P, they are annihilated and more excellent shielding effect can be obtained.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications, alterations, and changes may be made without departing from the scope of the present invention.

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.

100: radiation shielding device 110: casing
110a: hollow portion 110b:
111, 112; Upper and lower casing parts 113 and 114:
120: lead beads 130: hinge
140: Casing holder

Claims (8)

An apparatus (100) for shielding radiation by being installed in a pipe,
A donut-shaped casing (110) having a hollow portion (110a) capable of accommodating a pipe and having an empty space (110b) inside;
And a lead bead 120 filled in the space 110b,
The casing (110)
Upper and lower casing portions 111 and 112 which are coupled to form a donut shape;
And opening portions 113 and 114 formed in the upper and lower casing portions 111 and 112 so that the lead beads 120 can be inserted into the space portion 110b or the lead beads 120 can be taken out from the space portion 110b Lt; / RTI >
The upper and lower casing parts 111 and 112 are coupled to each other by a hinge 130 at one side,
And a casing holder (140) for fixing the upper and lower casing parts (111, 112) to the piping,
Wherein the lead beads (120) are made of lead beads having different sizes. delete delete delete The method according to claim 1,
Wherein the casing (110) is made of a hard metal. The method according to claim 1,
Wherein the casing (110) is made of reinforced plastic. delete The method according to claim 1,
And a collimator can be mounted in the space part (110b).

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