KR101579684B1 - non-destructive inspection blackout curtain device - Google Patents

Abstract

The present invention relates to a radiation shielding apparatus for a non-destructive inspection, which comprises a shielding plate composed of a body and a shielding plate laminated on the upper end of the body, so that the shielding apparatus can be easily placed on the inspection body, So that it is easy to shield the shielding member.
To this end, the present invention provides a shielding apparatus for preventing radiation leakage occurring during a nondestructive inspection process, the shielding apparatus comprising: a body (10) placed on an inspection body; And at least one shielding plate (20) seated on the body (10) for shielding the radiation; The shielding plate 20 includes a casing 22 formed in the same or similar shape as the body 10 and a shielding member 24 formed on the inside of the casing 22 to shield radiation .

Description

[0001] Non-destructive inspection blackout curtain device [0002]

The present invention relates to a radiation shielding apparatus for non-destructive examination, and more particularly, to a radiation shielding apparatus for a non-destructive examination, which comprises a body and a shielding plate formed by stacking at least one of the shielding plates on an upper end of the body, To thereby facilitate the shielding of the radiation. The present invention also relates to a radiation shielding apparatus for non-destructive inspection.

In general, a nondestructive test (NDT) is a test to determine the presence or absence of defects on the surface of a test object, its state, and the state of a test object, regardless of the type of product or structure, Internal structure, etc., and then make a judgment as to whether or not the test object can be used based on a certain judgment criterion.

The nondestructive inspection is used to determine whether surface defects of a large part such as a main shaft of a wind power generator are defective or to check whether a weld line such as a pipe is defective such as pores or cracks. The ultrasonic inspection, Magnetic particle test, liquid penetration test, etc. Among these, X-ray nondestructive test, which is a radiographic test, is the most widely used.

In the X-ray nondestructive inspection, a photosensitive film is provided on the inspection line, for example, the surface of a large-sized component or a rear surface of a region to be inspected such as a welding line, and then the X-ray is transmitted to reproduce the image on the photosensitive film to determine the presence or absence of a defect to be.

At this time, the X-ray, that is, the radiation has a linear property, and there is a problem that radiation is leaked to the opposed portion of the inspection line and the worker can be exposed.

In order to prevent this, conventionally, a lead plate having a radiation shielding function is placed at a position opposite to the inspection line.

However, the above-mentioned plywood has a high specific gravity and has a problem in that it is difficult to move because the thickness thereof is considerably thick in order to improve the effect of the radiation shielding function.

Further, when the inspection object is an annular shape such as a shaft or a pipe, there is a problem that a plate-shaped lead plate may fall off the inspection object, thereby causing a risk of a safety accident that an operator may be injured or radiation may be leaked.

Further, when the inspection object is annular, there is a problem that the versatility of preparing a lead plate having different arcs according to the arc according to the diameter of the annular shape is deteriorated.

Korea registered patent No. 1263750 (registered on May 3, 2013) Korean Registered Patent No. 1372828 (Registered on March 31, 2014) Korea Registered Utility Model No. 470677 (Registered on December 27, 2013)

It is an object of the present invention to provide a shielding device comprising a body and a shielding plate laminated on the upper end of the body, So as to facilitate the shielding of the radiation. The present invention also provides a radiation shielding apparatus for non-destructive inspection.

It is another object of the present invention to provide a shielding plate composed of a casing and a shielding member formed inside the casing, so that it is possible to form shielding materials having various properties according to the shape of the inspection body in various shapes to improve the shielding effect And to provide a radiation shielding device for non-destructive inspection.

It is a further object of the present invention to provide a radiation shielding apparatus for a nondestructive inspection that overcomes the limit of use that can be universally used according to the diameter of an annular inspecting body by constituting a height regulating support on the body.

It is still another object of the present invention to provide a radiation shielding apparatus for nondestructive inspection which improves the convenience of inspecting a shielding apparatus while moving the shielding apparatus along the longitudinal direction of the inspected body have.

According to an aspect of the present invention, there is provided a shielding apparatus for preventing radiation leakage occurring during a nondestructive inspection process, the shielding apparatus comprising: a body mounted on an inspection object; And at least one shielding plate seated on the body for shielding the radiation, The shield plate includes a casing formed in the same or similar shape as the body, and a shield configured to shield radiation from the inside of the casing.

In the present invention, the body includes: a frame having a handle on one side for facilitating an operator's break; At least one height-adjusting pipe constituting the frame; A height adjusting pillar inserted into the height adjusting pipe so as to be adjustable in height; And a height adjusting bolt which is fastened to one side of the height adjusting pipe and presses the height adjusting pillar so that the height of the height adjusting pillar is fixed.

In the present invention, at least one guide shaft for supporting the laminated shielding plate so as to stably maintain the laminated state is formed at one side of the body, The shield plate may further include at least one insertion hole for insertion into the guide shaft.

In the present invention, it is preferable that the height adjusting pillar further includes a caster for facilitating the movement of the shielding device along the longitudinal direction of the inspection object.

In the present invention, it is preferable that the shield plate further includes at least one second handle for facilitating gripping of the operator.

According to the present invention, it is possible to easily shield the radiation shielding device by easily placing the shielding device on the inspection object, by providing the shielding device composed of the shielding plate having at least one body laminated on the body and the upper end of the body have.

In addition, by providing the shielding plate composed of the casing and the shielding member formed inside the casing, it is possible to form the shielding of the lead having various properties according to the shape of the inspection body in various shapes to improve the shielding effect .

In addition, by constituting the height-adjustable support in the body, it is possible to overcome the limit of use that can be universally used according to the diameter of the annular test body.

In addition, by forming the caster in the height-adjusting pillar, the convenience of enabling inspection while moving the shielding device along the longitudinal direction of the inspection object can be improved.

1 is an exploded perspective view of a shielding device according to the present invention;
2 is an assembled cross-sectional view of a shield according to the present invention.
3 is a side view of the shielding device according to the present invention.

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

1, the shielding apparatus 1 according to the present invention comprises a body 10 and a shielding plate 20 for shielding radiation by stacking at least one layer on the upper end of the body 10 .

The body 10 is a means for resting on the inspection object to stably support the shielding plate at the upper end.

The body 10 includes a frame 12, a plurality of height-adjusting tubes 14 arranged symmetrically with respect to both ends of the frame 12, And at least one guide shaft 18 for supporting a shield plate 20 formed on one side of the frame 12 and stacked with at least one of the guide shafts.

The frame 12 is formed such that stable lamination of the shielding plate 20 is performed.

Further, it is preferable that the frame 12 is formed in an arc shape so that it can be easily used in an annular inspection object. In this case, the frame 12 may be formed in a plate shape so as to be used in the case of a shape of the inspection object, for example, a plate shape. That is, the frame 12 is formed in a shape corresponding to the shape of the inspection object.

The frame 12 is preferably formed of a metal material or a synthetic resin for ease of operation and convenience of manufacture.

Also, at least one knob 13 is formed on the frame 12 to facilitate gripping of the operator.

The height adjusting pipe 14 is formed at one side of the frame 12 and has an empty space for inserting the height adjusting pillars 16 therein. At this time, the inside of the height-adjusting pipe 14 is configured to penetrate through the frame 12.

A height adjusting bolt 15 is fastened to one side of the height adjusting pipe 14 so as to control the height of the height adjusting paddle 16 inserted into the inside.

That is, the height of the height adjustment pillar 16 can be fixed or adjusted by pressing the height adjustment pillar 16 inserted into the height adjustment pipe 14 with the height adjustment bolt 15.

As shown in FIG. 3, the height-adjusting pipe 14 is preferably formed at equal intervals of 120 ° so as to be stably mounted on the annular inspection object. Of course, the present invention is not limited thereto, and any shape can be used as long as it can be stably mounted on the inspection object. For example, any structure can be used as long as it is symmetrically symmetrical so that it can be stably stood on an inspection object.

The height adjusting pawl 16 is inserted into the height adjusting pipe 14 and the height of the height adjusting pawl 16 is adjusted by the height adjusting bolt 15 to adjust the height of the height adjusting pawl 15 according to the diameter of the annular inspection body, Can be used for general purpose.

A caster 17 is formed at an end of the height adjusting post 16 so as to be movable along the longitudinal direction of the inspection object.

The guide shaft 18 is a means for stably mounting and fixing at least one shielding plate 20 seated on the upper end of the frame 12.

The guide shaft 18 is fixed to the upper end of the frame 12 so as to protrude at a predetermined height, as shown in FIGS. It is preferable that the guide shafts 18 are formed in the frame 12 in plural.

A plurality of shielding plates 20 are stacked on the guide shaft 18 so as to be fastened with a fixing nut 19 for preventing the shielding plate 20 from being vibrated by external vibration or impact . Of course, the fixing nut 19 may be omitted in some cases.

The shield plate 20 is stacked on the body 10 to prevent radiation from leaking arbitrarily.

The shielding plate 20 is composed of a casing 22 and a shielding member 24 formed inside the casing 22. [

The casing 22 is a means for maintaining the shape of the shield 24 while protecting the shield 24.

The casing 22 is preferably made of a metal material or a synthetic resin material which can maintain a predetermined shape. In this case, it is preferable to use the same material as the body 10.

At least one insertion hole 26 into which the guide shaft 18 of the body 10 is inserted is formed in the casing 22.

In addition, at least one second handle 28 is formed in the casing 22 to facilitate gripping of the operator.

The shield (24) is a material for shielding radiation. In this case, lead is preferable.

That is, since the lead, which is the shield 24, is difficult to maintain a predetermined shape due to its soft nature, it is possible to maintain a predetermined shape with the casing 22 and to make it easy to stack it on the body 10 Improves sex.

The use state of the above-mentioned radiation shielding apparatus for non-destructive inspection will be described as follows.

First, as shown in FIG. 3, the height of the height adjusting post 16 is adjusted according to the diameter of the inspection object. For example, when the diameter of the inspection object is small, the height of the height adjustment post 16 is adjusted so as to have a maximum height in the frame 12 of the body 10, and when the diameter of the inspection object is large, 12 so that the height of the height adjusting pawl 16 is reduced to have a minimum height.

Then, when the height adjustment of the height adjustment pillar 16 is completed, the body 10 is placed on the inspection body.

Then, the shielding plate 20 is laminated on the upper side of the body 10.

At this time, the shielding plate 20 stacked on the body 10 is stably put on the body 10 by inserting insertion holes 26 formed in the shielding plate 20 into the guide shaft 18 of the body 10 . In this case, the number of seats of the shield plate 20 may be varied depending on the radiation dose.

When the at least one shielding plate 20 is completely stacked on the body 10, the fixing nut 19 is fastened to the guide shaft 18 so that the shielding plate 20 Is prevented from being arbitrarily shaken or released.

When the installation of the shielding apparatus 1 is completed through the above process, the nondestructive inspection is performed. When the nondestructive inspection is completed and the other parts in the longitudinal direction of the inspection target are to be inspected, The shielding device (1) is pushed and moved while continuing the inspection.

The above description is only one embodiment for implementing the radiation shielding apparatus for nondestructive inspection, and the present invention is not limited to the above-described embodiments. It will be understood by those skilled in the art that various changes may be made without departing from the spirit of the invention.

1: shielding device 10: body
12: Frame 13: Handle
14: height adjusting pipe 15: height adjusting bolt
16: height-adjustable support 17: caster
18: Guide shaft 19: Fixing nut
20: shield plate 22: casing
24: Shield 26: Insertion hole
28: second handle

Claims (5)

1. A shielding device for preventing radiation leakage occurring during a nondestructive inspection, comprising:
A body (10) resting on an inspection body; And
And at least one shielding plate (20) seated on the body (10) to shield the radiation,
The shielding plate 20 includes a casing 22 formed in the same or similar shape as the body 10 and a shield 24 configured to shield radiation from the inside of the casing 22;
The body (10) includes a frame (12) having a handle (13) on one side for facilitating the break of an operator;
At least one height-adjusting pipe (14) constituting the frame (12);
A height adjusting post 16 inserted into the height adjusting pipe 14 to adjust the height thereof; And
A height adjusting bolt 15 which is fastened to one side of the height adjusting pipe 14 and urges the height adjusting pillar 16 so that the height of the height adjusting pillar 16 is fixed;
Wherein the radiation shielding device comprises:
delete [2] The apparatus according to claim 1, wherein, at one side of the body (10)
At least one guide shaft (18) configured to support the laminated shielding plate (20) so that the shielding plate (20) can stably maintain the laminated state;
The shield plate (20) is provided with at least one insertion hole (26) for insertion into the guide shaft (18);
Wherein the radiation shielding device further comprises:
[2] The elevator according to claim 1,
A caster (17) for facilitating movement of the shielding device (1) along the longitudinal direction of the inspection object;
Wherein the radiation shielding device further comprises:
The shielding plate (20) according to claim 1, wherein the shielding plate (20)
At least one second handle (28) for facilitating gripping of an operator;
Wherein the radiation shielding device further comprises:

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