KR101476102B1 - External radiation exposure pipes shut-off device for the non-destructive testing - Google Patents

Abstract

The present invention relates to a novel shut-off device. According to the present invention, radiation which may be harmful when discharged can effectively be shut-off during non-destructive testing carried out to check coupling (welding part and the like) between the internal structures of a pipe (gas pipe, oil pipe, water pipe, and the like). The present invention can quickly and conveniently be applied to pipes on the ground surface; can be used with convenience; and can be operated and managed with ease. A shut-off unit (100) to correspond to the entire pipe circumference is provided and is configured to be divided into at least two partial response shut-off units (110) such that individual response is available within specific angular ranges of the entire pipe circumference having a 360-degree circumferential surface; and each of the partial response shut-off units (110) maintains a predetermined shape with a frame with a shut-off material coupling means disposed on the frame (130) to couple a lead plate (10) which is a central material for radiation shut-off. A hinge (200) for free rotation is provided in any one of the contact portions (120) where the partial response shut-off units (110) are in contact with each other, and lockable and unlockable fastening means (300) is provided on the other one of the contact portions (120).

Description

[0001] The present invention relates to an external exposure pipe for a non-destructive testing apparatus,

The present invention effectively shields radiation that is released to the outside and may cause harm to the human body during nondestructive inspection conducted for inspecting the bonding (welded portion, etc.) of internal tissues of pipes (gas pipes, oil pipelines, pipelines and other pipe pipes) In particular, to a new type of car disposal which can be quickly and easily responded to a pipe exposed to the ground, is very convenient to use, and is easy to operate and manage.

It is necessary to conduct close inspection because potential defects such as cracks and bubbles may be generated in the inside of the welded part of the piping, which is normally required to have airtightness, such as gas pipes and oil pipelines.

In this case, the nondestructive examination method is mainly used. This is because the radiation (gamma ray) emitted from the radioactive material is transmitted to the subject, a film capable of detecting the image is placed on the opposite side of the subject, (RT) (Radiographi) are typical.

In the case of non-destructive testing, radiation shielding must be installed to ensure safety (prevent exposure), since fatal radiation may be emitted to the human body during the examination.

Conventionally, a plurality of lead pads for radiation shielding having an appropriate weight (worker's weight) are manufactured. Then, the number of lead pads for radiation shielding is adjusted to the amount required for radioactivity shielding (about 5 to 7 pieces required for about 200 kg to 300 kg) The radioactivity was shielded by lifting it on the piping in turn. However,

This is because the shielding lead pad (a heavy metal with a high radiation shielding rate is flattened to a thin thickness, but it is very difficult for a person to lift it by hand) several times on the pipeline to be inspected, Labor force is required Of course,

Though it is wrapped in a thin envelope, there is a concern about the safety of workers because there is a possibility of contact with direct and indirect contact with heavy metals during the lifting process.

In particular, when the piping to be inspected is installed on a floor exposed to all directions, the shielding pad is placed only on the upper side of the pipe as in the conventional method, and only the shielding within a certain angle range of the upward direction is possible. There is a problem that shielding itself can not be performed with respect to radiation emitted from the remaining angles, such as the lateral direction, so that it is very limited in use.

That is, in a large-scale facility such as a cogeneration power plant, there are a large number of pipelines installed on the ground (water piping for heat exchange, etc.), and this piping also needs to maintain accurate airtightness. However, in the case of this piping, since it is exposed to the outside, it is difficult to avoid radiation of radiation to the lateral direction and downward direction when the shielding is performed by lifting several shielding mats only on the upper surface of the pipe There may be a problem with the safety of nearby workers and citizens.

Accordingly, the present invention does not correspond to a part of the circumferential surface of the pipe to be inspected but perfectly corresponds to the entire circumferential surface of the pipe, thereby preventing the radiation accompanying the nondestructive inspection from being absolutely leaked in any direction, Therefore, it is very easy and simple to install and install. It also moves easily along the piping and adjusts to the proper inspection point. Also, it can be easily separated and disassembled when inspection is finished. The present invention has been accomplished on the basis of providing a radiation shielding apparatus for a non-destructive inspection for an external exposure pipe which is considerably convenient to use.

In order to accomplish the above object, the present invention provides a piping front and rear shielding unit (100) comprising at least two or more pipes, each of which has a circumferential surface of 360 degrees, (110) which is divided into two parts; Each of the partial vs. application shielding units 110 divided into two or more sections may have a frame and a shielding material coupling 130 that can couple the lead plate 10, which is a core material of radiation shielding, Means being installed; The hinge 200 may be formed in any one of the contact units 120 where the two or more part-to-part shielding units 110 are in contact with one another, While the other is provided with locking means 300 which can be locked or unlocked.

The radiation shielding apparatus for non-destructive inspection of the external exposure pipe of the present invention as described above is designed such that when a line shielding unit is associated with the upper portion of the pipe for the purpose of non-destructive inspection during piping work, Unlike the conventional one that has to be lifted up and raised, it is possible to collectively correspond to each other through the conveying and lifting means, The shielding unit 100 can partially cover the circumferential sections of the 360 degree circumferential sections, and when necessary, the shielding unit 100 can be installed in the piping (not shown) It is possible to provide a lock mechanism that can be closed and locked, and moreover, in a state of being in close contact with a pipe, Along the chain pipe to be inspected in a state such as a very useful invention which enables also the transfer slide.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Fig. 2 is an exemplary view showing still another embodiment of the present invention
Figure 3 is an exemplary plan view of a preferred embodiment of the present invention
Fig. 4 is an exemplary view showing the state of implementation in the conveyance truck of the present invention
Fig. 5 is a view showing an example of the state of operation of the heavy-lifting device according to the present invention
7 is an exemplary view showing a side installation state of the present invention
Fig. 7 is an exemplary view showing the use state of the present invention
8 is an exemplary diagram showing another embodiment of use of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A radiation shielding apparatus for a non-destructive inspection according to the present invention will be described in more detail with reference to the accompanying drawings.

That is, according to the present invention, since the entire outer peripheral surface (360 degrees) of the pipe to be inspected during the nondestructive inspection by radiation permeation is collectively wrapped and coped with it, even if the pipe to be inspected is exposed to the outside, (100) for protecting the piping front end of the pipe,

The piping front-end-side application shielding means 100 comprises at least two or more divided portion-application-type shielding units 110 so as to correspond to each other within a range of a predetermined angle around the circumference of a pipe having a 360- ;

Each of the partial vs. application shielding units 110 divided into two or more sections may have a frame and a shielding material coupling 130 that can couple the lead plate 10, which is a core material of radiation shielding, Means being installed;

The hinge 200 may be formed in any one of the contact units 120 where the two or more part-to-part shielding units 110 are in contact with one another, , While the other is provided with a locking or unlocking fastening means (300); As a characteristic point.

In addition, the shielding material coupling means may couple the lead plate 10, which is made of a heavy metal (a material having a high radiation shielding efficiency) to a certain shape, to the divided portion-applied shielding unit 110 As a means of ensuring that,

 The cover may be formed on the inner side and the outer side of each of the part-to-be-applied shielding units 110 and may be simply incorporated between the cover and the cover. Alternatively,

More preferably, as shown in the drawing, the guide bars 120 having the slide grooves 121 formed on one side and the other side of the frame 130 are respectively installed and sandwiched therebetween. It is very easy to move the position freely.

At this time, the left and right sides of the lead plate 10 coupled to the frame 130 are punched at regular intervals to attach or remove a film (a film for developing a defect state of a welded structure) If the film check window 140 is provided as a space, it can be more effective.

In order to easily lift (lift) and convey (move) through the heavy material conveying and lifting device, any one of the upper ends of the part-to-be-applied shielding unit 110 can be variously connected The locking unit side fastening ring 160 that can be selected as other elements can be constructed.

In addition, it is preferable that the both side finishing supporting plates 191 are formed at the left and right ends of the respective partial vs. applied shielding units 110, so that a clean and easy supporting force can be secured.

In addition, although the shock absorbing pads 210 may be selectively provided on the inner circumferential surface of each of the side-by-side shielding units 110 so as to be able to cope more securely when they are in close contact with the piping,

Particularly, when one or more slide conveying rollers 220 capable of sliding (rolling) freely in the longitudinal direction in a state of being in rolling contact with the outer peripheral surface of the pipe in close contact with the pipe are provided,

It is not only easy to precisely align with the point of the nondestructive inspection but also to cope with the inspection point of another position, it is necessary to unlock the lock, disassemble it, It is convenient.

In addition, if one or more of the above-described partial vs. application shielding units 100 divided into two or more pieces are provided with a handle 230 that can be held by a hand and slide by the operator, this can be easily and conveniently transferred Do.

In addition, a horizontal mounting latching frame 240 for safely and horizontally mounting a transfer carriage or the like is provided on the outer side of one side and the other side of the 360-degree circumferential surface where two or more side-by-side shielding units 110 are assembled together, Can be further formed.

The fastening means 300 is formed by fitting together fastening pieces 330 having holes at one side and the other side of the contact portions between the partial shielding units 110 and then fastening them through the bolts 310 and the nuts 320 However, it should be understood that this is merely one example, and it is a matter of course that the mechanisms can be suitably selected for functions that can be used conventionally.

The radiation shield for nondestructive inspection of the external exposure tube of the present invention, which can be configured as described above,

When the radioactive shielding unit is associated with the piping for the purpose of non-destructive inspection during piping,

Unlike the conventional case where the operator had to lift several lead plates several times,

Since it is possible to easily cope with a mountain and a lift means,

Each of the partial shielding units 110 divided into two or more pieces can completely shield radioactivity in any direction in all directions as it covers the entire outer peripheral surface (360 degrees) of the pipe collectively,

Further, while the partial countermeasure shielding unit 110 partially corresponds to each of the circumferential sections of 360 degrees, it can be extended to correspond to the piping as necessary,

When the slide roller is configured so as to be capable of being closed by being closed and also capable of rolling in a state of being in close contact with the pipe,

It is possible to freely slide along the length of pipeline to be inspected in the entirely locked state,

It is possible to carry out a nondestructive inspection while moving a plurality of inspection points requiring a nondestructive inspection without rolling it off by rolling transfer, thereby having a more convenient structure.

10: Lead plate 100: Pre-piping circumference application Shielding means
110: shielding unit 120: shielding material inserting part
130: cover 150: pipe accommodating portion
180: contact portion 200: hinge
300: locking means

Claims (9)

(360 degrees) of the pipeline to be inspected in the non-destructive inspection by radioactive permeation is collectively wrapped and coped with the piping so that the radiation shielding can be performed in either direction from any direction even if the pipeline to be inspected is exposed to the outside The front perimeter shielding means (100) is constructed,
The piping front-end-side application shielding means 100 includes a partial vs. application shielding unit 110 (not shown), which is divided into at least two to sixteen such that it can correspond within a certain angle of the entire circumference of a pipe having a 360- );
Each of the partial vs. application shielding units 110 divided into two or more and six or less can maintain a predetermined skeleton with the frame and can attach the lead plate 10 which is a core material of radiation shielding to the frame 130 A shielding member coupling means is installed;
The hinge 200 may be formed in any one of the contact portion 120 where the partial vs. application shielding unit 110 is divided into two or more and divided into two or more, (300) which can be locked or unlocked is provided on the other hand while allowing free rotation,

The shielding member coupling means is a means for coupling the lead plate 10 made of a lead material, which is a heavy metal, to the divided part application shielding unit 110 divided into two or more parts, (Not shown) on the inner side and the outer side of the outer tube, or alternatively, a door for opening and closing can be constituted so as to be replaceable.
The method according to claim 1,
The shielding member coupling means includes:
A guide bar 120 having slidable grooves 121 formed on one side and the other side of the frame 130 may be provided and then installed between the guide bars 120 to adjust the slidable distance between the left and right sides of the frame 130. [ Disposal of radioactive waste for non - destructive testing.
The method of claim 1, wherein
The film inspection window 140 is provided at left and right sides of the lead plate 10 coupled to the frame 130 at regular intervals to allow a film to be adhered or peeled off from the surface of the pipe. Disposal of radioactive waste for non - destructive testing of external exposure pipes.
The method of claim 1, wherein
Wherein one side of the upper end of the part-to-be-applied shielding unit (110) is constituted by a fastening ring (160) which can be easily lifted and moved (moved) through a heavy object transferring and lifting device Disposal of radioactive waste for non - destructive testing.
The method according to claim 1,
And an impact-absorbing pad (210) can be selectively installed on the inner circumferential surface of each of the side-by-side shielding units (110).
The method according to claim 1 or 5,
On the inner circumferential surface of each of the partial vs. application shielding units 110,
The slide conveying roller 220 can be provided in place of the impact absorbing pad 210 so that the slide conveying roller 220 can slide freely in the longitudinal direction while being in rolling contact with the outer circumferential surface of the pipe in close contact with the pipe. Disposal of radioactive waste for non - destructive inspection of exposure tubes.
The method according to claim 1,
And a grip (230) capable of being held by a hand and being slidable by a worker can be installed on any one or more of the partial vs. application screening units (110) divided into two or more than six Disposal of radioactive waste for non - destructive testing.
The method according to claim 1,
A horizontal mounting hanger (not shown) is provided on the outer side of one side and the other side of the 360-degree circumferential surface in which the above-mentioned two or more divided partial shielding units 110 are assembled together, And the frame (240) can be additionally installed on the external exposure pipe. delete

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