KR101979876B1 - scaffold pipe - Google Patents

Abstract

The present invention relates to a scaffold pipe in which contaminant penetration is prevented. The scaffold pipe comprises a body (100) having a predetermined length and having an empty inner portion, wherein a prevention plate (180) is installed in a position spaced from the end of the body (100) by a predetermined interval to prevent foreign substances from penetrating into the body (100). Moreover, when the scaffold pipe is used in a contaminated environment, the inside of the body, which is difficult to perform decontamination, can be prevented from being contaminated, and thus decontamination can be easily performed.

Description

[0001] DESCRIPTION [0002] Scaffold pipes,

The present invention relates to a scaffold pipe, and more particularly to a scaffold pipe in which contaminants are prevented from being injected into the inside of the body.

In general, various tools and equipments used in places where radioactive materials such as nuclear power plants and atomic energy research institutes are used, and shoes, clothes, etc. may be contaminated by radioactive materials. In case of such contamination, it is stipulated in the Nuclear Safety Act that the waste should not be simply buried or incinerated but must be treated with decontamination and decanting to remove radioactive materials.

On the other hand, among the decontamination objects that can be recycled, they can be reused after appropriate decontamination treatment. For example, metal, and there are typically a reactor containment vessel and a scaffold pipe used for work within the primary radiation management area.

Here, the scaffold pipe as described above infiltrates the radioactive material into the body during the post-installation work. In most cases, it is necessary to remove pollutants from the inside of the body to a level below the reference value, so that it can be reused. However, due to the structural characteristics of the scaffold pipe, the length of the body is as long as 1 to 6 m, so that the contaminants introduced into the deep portion of the body can not be easily removed despite the decontamination operation several times. As a result, considerable difficulty arises in the decontamination process, which naturally results in a problem of increasing the time and cost required for the decontamination operation.

(Document 1) Korean Patent No. 10-1655061 (published on September 6, 2016)

In order to solve the above problems, the present invention provides a scaffolding pipe for improving the structure of a scaffold pipe to prevent contaminants from penetrating into the inside of the scaffold, thereby completing a decontamination operation for reuse after being used in a polluted environment. There is a purpose.

The present invention proposes a scaffold pipe provided with means for preventing contaminants from penetrating into the inside of the body, thereby achieving the above object by preventing contamination of the inside of the body even in use in a contaminated environment.

According to the present invention, since penetration of contaminants into the body of the scaffold pipe is prevented, even if the scaffold pipe is used in a contaminated environment, the inside of the body which is difficult to decontaminate is not contaminated. Therefore, it is possible to easily remove contaminants, thereby shortening the re-heating time and improving the convenience of reuse.

1 is a partially exploded perspective view showing a state in which a horizontal pin is removed from a scaffold pipe according to the present invention,
2 is a cross-sectional perspective view showing the construction of a scaffold pipe according to the present invention,
3 is a front sectional view showing the construction of a scaffold pipe according to the present invention.

In the present invention, in order to obtain a scaffold pipe which can improve the structure of the scaffold pipe to prevent contamination from penetrating into the inside of the scaffold,

A body having a predetermined length and having an inner space and formed with a pin hole passing transversely at least one of an upper end portion and a lower end portion to be fastened to the transverse pin, a blocking plate formed in the body, And a cap selectively installed at the upper and lower ends of the body.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 is a partially exploded perspective view showing a state in which a transverse pin is removed from a scaffold pipe according to the present invention, FIG. 2 is a sectional perspective view showing the construction of a scaffold pipe according to the present invention, and FIG. Fig.

As shown in the drawing, the scaffold pipe according to the present invention is formed of a metal material, has a predetermined length, and forms a pipe-shaped body 100 having an empty interior. A shield plate 180 is installed inside the body 100 at a position spaced from the end of the body 100 by a predetermined distance.

The shield plate 180 is a plate having a predetermined thickness formed to match the inner diameter of the body 100. The shield plate 180 prevents the contaminants such as radioactive material from penetrating into the body 100 do.

Meanwhile, in the case of the scaffold pipe, the body 100 may be provided with a fin hole 120 passing through the body 100 at least at one of a position spaced apart from the upper end of the body 100 and a position spaced apart from the lower end by a predetermined distance. The pin hole 120 is formed at a position 5 to 10 cm away from the end of the body 100.

The transverse pins 140 are fastened to the pin holes 120 formed as described above. The transverse pins 140 are used to connect the bodies 100 to each other, as is well known. The body 100 is connected to the body 100 by a known connecting pin so that the connecting pin is not separated from the body 100 through the transverse pin 140 so that the bodies 100 are not separated from each other .

In the structure in which the pin hole 120 and the transverse pin 140 are formed as described above, the blocking plate 180 is formed at a position spaced apart from the pin hole 120 in the middle direction of the body 100 by a predetermined distance. The transverse pin 140 is provided in the fin hole 120 but a gap between the transverse pin 140 and the transverse pin 140 is generated in the fin hole 120 and the contaminant can penetrate into the body 100 through the gap, The penetration of contaminants into the gap is prevented by determining the installation position of the blocking plate 180 as described above. The position of the blocking plate 180 may be formed at a position approximately 3 cm to 4 cm away from the pin hole 120.

The blocking plate 180 is firmly fixed on the inner peripheral surface of the body 100. And is fixed by a support protrusion 150 protruding from the inner circumferential surface of the body 100 to support both sides of the blocking plate 180 as shown in FIG.

The support protrusions 150 may protrude from the inner circumferential surface of the body 100 by hitting the outer circumferential surface of the body 100. The support protrusions 150 are formed at regular intervals along the inner circumferential surface of the body 100 at the position where the blocking plate 180 is to be installed and then the blocking plate 180 is inserted into the body 100, The support protrusions 150 are formed on the other surface of the shield plate 180 so as to be supported by the support protrusions 150 so that the shield plate 180 is fixed. Whereby the blocking plate 180 is firmly fixed so as not to be detached.

Meanwhile, the scaffold pipe according to the present invention further includes a cap 160 selectively installed at both ends of the body 100, that is, at an inlet of the body 100. The cap 160 is installed at the end of the body 100 to prevent contaminants from penetrating into the body 100. Such a cap 160 is removed when the bodies 100 are to be connected to each other.

The cap 160 is provided with a concave portion 162 having a concave shape. The concave portion 162 formed as described above is coupled to the inside of the body 100 while being coupled to the body 100. A rim extending outwardly is formed at an end edge of the concave portion 162 so that the rim contacts the end of the body 100 And the concave portion 162 may be installed in the body 100 while being accommodated in the body 100. Therefore, even if the cap 160 is installed, the cap 160 is not pushed out of the body 100, so that the operation of the cap 160 can be prevented in the process of installing the body 100 by connecting the body.

The concave portion 162 can be coupled to the end of the body 100 by interference fit, and can be configured to be coupled by screwing if necessary.

A handle 164 may be formed on the recess 162. The handle 164 is formed so as not to protrude outward from the body 100, and the cap 160 can be installed or removed whenever the knob 164 is needed.

According to the present invention as described above, it is possible to prevent contaminants from flowing into the body 100 through the blocking plate 180 installed at the inlet side of the body 100. Further, it is possible to prevent foreign matter from entering the space between the inlet of the body 100 and the blocking plate 180 through the cap 160 selectively installed at the entrance of the body 100. Therefore, when the decontamination operation for removing contaminants from the scaffold pipe according to the present invention used in the contamination environment is performed, the interior of the body 100 may not be decontaminated. As a result, the pollutants can be easily removed, and the time required for the decontamination operation can be remarkably shortened.

100: body, 120: pin hole,
140: transverse pin, 150: supporting projection,
160: cap,
162: concave portion, 164: handle,
180: Blocking plate.

Claims (5)

The body 100 has a predetermined length and is hollow inside and is formed with a pin hole 120 passing transversely at a position spaced apart at a predetermined distance from the upper end and a predetermined distance away from the lower end,
A blocking plate 180 is installed inside the body 100 at a position spaced apart from the fin hole 120 by a predetermined distance in the middle of the body 100 to prevent contaminants from penetrating into the body 100, A scaffolding pipe is prevented. The method according to claim 1,
And a cap (160) selectively installed at the upper and lower ends of the body (100). 3. The method of claim 2,
The cap 160 is provided with a concave portion 162 having a concave shape and the concave portion 162 is received in the body 100 and is prevented from protruding to the outside. The method of claim 3,
And a handle 164 is formed on the concave portion 162 to prevent the penetration of contaminants that can separate the cap 160 by holding the handle 164.
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