KR101412499B1 - Gas interception joint pipe and construction method therefor - Google Patents

Abstract

Disclosed are a gas interception joint pipe and a construction method for the same. According to an aspect of the present invention, the gas interception joint pipe includes a barrel type body including a hollow inside and of which both longitudinal-directional sides are open; an end packing which is installed in the body and includes an penetrated accommodation space inside; an explosion prevention plate fixed to both open sides of the end packing installed in the body; and a plurality of insert blocks which is installed in the accommodation space of the end packing and encloses each cable.

Description

Technical Field [0001] The present invention relates to a gas interception joint pipe and a construction method therefor,

The present invention relates to a gas barrier connection pipe, and more particularly, to a gas barrier connection pipe and a construction method that can prevent gas inflow and facilitate repair and maintenance.

Generally, a connection pipe penetrating the inside and the outside is installed on the wall surface of the building for wiring the electricity to the building.

The connecting pipe serves to prevent piping and cables from being damaged to the partition and to block the inflow of polluted air and gas from the outside into the inside of the building.

1 is a view schematically showing a conventional connecting pipe.

Referring to FIG. 1, conventionally, after a wall 10 of a building is passed through, a connecting pipe 20 is installed in a wall surface 10 penetrating, and then a pipe and a cable are installed in the connecting pipe 20.

Thereafter, silicone 30 or the like is applied to the connection pipe 20 to prevent contact between the cable and the cable or cable and the wall surface 10, while preventing contaminated air and gas from entering the outside.

However, the above-described conventional method of applying the connection pipe 20 has an advantage in that contaminated air and gas can be originally blocked by applying the silicone 30 to the connection pipe 20, It is difficult to dismantle the silicon 30 applied in the connection pipe 20 during repairing.

That is, pipes and cables are installed in a state of being embedded in the wall 10 provided with the connecting pipe 20, and then the molding process is performed with the silicon 30, so that the whole construction is simple, 20), it was difficult to cover the cable during disassembly due to the silicon surrounding the pipe and the cable.

In addition, since there is no means for preventing contact between the cable and the cable when the silicone 30 is applied, the cable and the cable are brought into contact with each other, resulting in the generation of electromagnetic waves such as noise.

Therefore, the applicant of the present invention has proposed a gas barrier connection pipe and a construction method that can solve the above-mentioned conventional problems.

One embodiment of the present invention is to provide a gas barrier connection pipe and a construction method that can prevent the inflow of contaminated air and gas from the outside and facilitate maintenance.

Also, it is desirable to provide a gas barrier connection pipe and a construction method so that airtightness can be maintained even when an external explosion (pressure acting on the inner and outer surfaces of the building due to the explosion) occurs.

According to an aspect of the present invention, there is provided an endoscope comprising: a tubular body having both sides in a longitudinal direction opened and having a hollow therein; an end packing positioned in the body and having an accommodation space penetrated therein; A gas barrier connecting pipe may be provided which includes an explosion proof plate fixedly coupled to both open sides of the packing and a plurality of insert blocks installed in the receiving space of the end packing and capable of wrapping each cable.

The embodiments of the present invention can prevent the inflow of contaminated air from the outside into the building by installing the end packing and the insert block in the joint pipe and also by tightening the end packing and the insert block using the explosion- , It is easy to disassemble and repair, and it is easy and simple to repair.

In addition, by wrapping each cable using the insert block, it is possible to prevent the cable from coming into contact with the cable, thereby minimizing the occurrence of noise.

In addition, by tightly fixing the end packing and the insert block using bolts so as to fix the cable and prevent the inflow of gas, the tightness can be maintained even if the external pressure is generated.

1 is a view schematically showing a conventional connecting pipe.
2 is a view schematically showing the installation of the gas barrier connecting pipe according to the embodiment of the present invention.
3 is an exploded perspective view of a gas barrier connection tube according to an embodiment of the present invention.
4 is a view schematically showing a modification of the insert block used in the gas barrier connecting pipe according to another embodiment of the present invention.
5A to 5D are views schematically showing a construction method of a gas barrier connecting pipe according to an embodiment of the present invention.
6 is an exploded perspective view of a gas barrier connecting pipe according to another embodiment of the present invention.

Hereinafter, referring to the drawings, a gas barrier connecting pipe and a construction method according to embodiments of the present invention will be described in detail.

2 is a view schematically showing the installation of the gas barrier connecting pipe according to the embodiment of the present invention.

2, the gas barrier connecting pipe 100 according to an embodiment of the present invention is installed in the wall 10 of the building so as to penetrate the outside and the inside of the building 10, and various pipes and cables (hereinafter, And a cable "cable ") through the wall.

At this time, the gas barrier connecting pipe 100 and the construction method according to an embodiment of the present invention can block the inflow of contaminated air and gas from the outside of the building, and can maintain a tight tightness even when an external pressure is generated.

3 is an exploded perspective view of a gas barrier connection tube according to an embodiment of the present invention.

3, the gas barrier connecting pipe 100 according to an embodiment of the present invention includes a tubular body 110 having both sides opened and having a hollow inside thereof, An end packing 120 which is formed to penetrate a receiving space inside the body 110, an explosion proof plate 130 which is fixedly coupled to both open sides of the end packing 120 installed in the body 110, And may include a plurality of insert blocks 140 installed in the space for covering the respective cables 20.

The body 110 is embedded in the wall 10 of the building, and has a hollow shape with a hollow inside and a cylindrical shape with both longitudinal sides opened.

At this time, when the body 110 is embedded in the wall 10, the flange is formed to extend in the circumferential direction at both ends opened to be firmly assembled to the wall body 10, and a bolt hole 112 To the wall 10 in such a manner that the bolts are coupled to the wall 10.

The end packing 120 has the same shape as the outer circumferential surface of the body 110 and is coupled to the hollow of the body 110 in a fitting manner to mitigate the impact when external pressure is generated.

That is, the end packing 120 is made of a rubber material so as to have a predetermined elastic force, thereby preventing the cable 20 from being damaged by mitigating the impact even if an external explosion occurs, By allowing some sealing, it reduces the inflow of polluted air and gas from the outside.

In addition, the accommodation space formed in the end packing 120 may be formed in a circular shape, but it may be formed in a square shape so that the insert block 140, which is formed in a square pillar shape when fastening the insert block 140 described later, So that the airtightness is maintained.

The explosion-proof plate 130 is fixedly coupled to both open sides of the end packing 120 positioned in the body 110 and is fixedly coupled to one side of the end packing 120 so as to face the outer wall surface of the building And a rear explosion-proof plate 136 fixedly coupled to the other side of the end packing 120 so as to face the inner wall surface of the building.

The front explosion-proof plate 132, which is coupled to one side of the end packing 120 facing the outer wall of the building, is formed in the form of a circular plate having a predetermined area, A through hole 133 having the same shape and the same diameter as the through hole 133 is formed.

 The rear explosion-proof plate 136, which is coupled to the other end of the end packing 120 facing the inner wall of the building, is formed in the shape of a circular plate like the front explosion-proof plate 132, A plurality of fitting holes 137 are formed.

The end packing 120 and the explosion-proof plate 130 are installed in the body 110 in a modular state when they are coupled to each other by the bolts S. The end packing 120 and the explosion- A plurality of coupling holes are formed along the rims, respectively, and the bolts S are coupled to the coupling holes to be mutually fixed.

The insert block 140 is formed of a plurality of cables so as to cover the outer circumferential surface of each of the cables 20. The end block 130 is inserted into the insert block 140 through a through hole formed in the front explosion- 120).

At this time, the insert block 140 straddles the cable 20 and stably supports the cable 20 when an explosion occurs from the outside, and the contaminated air and gas from the outside flows into the building through the through hole 133 And they are formed in the form of a pair of rectangular cylinders having a circular hollow in the inside when they are combined with each other.

In addition, although the insert block 140 according to an embodiment of the present invention has a circular hollow formed therein to enclose the cable 20, when the cable 20 is not wrapped around the circular hollow, The gas can be introduced into the inside of the building. Thus, as shown in FIG. 4, the gas is formed into a square pillar shape to prevent gas from flowing into the building.

A construction method of the gas barrier connecting pipe 100 according to an embodiment of the present invention having the above-described structure will be described as follows.

First, as shown in FIG. 5A, a through hole is formed in the wall 10 of the building so that the outside and inside of the building penetrate.

Then, the body 110 of the gas shutoff pipe 100 is inserted into the through hole, and then the bolt S is used to fix the body 110 as shown in FIG. 5B.

5c, a front explosion-proof plate 132 and a rear explosion-proof plate 136 are assembled to both sides of the end packing 120 to form an assembly. Then, the assembly is inserted into the body 110, do.

At this time, the direction in which the front explosion-proof plate 132 is installed is directed to the outside of the building. That is, in a direction in which pressure is generated so that the insert block 140 inserted through the through-hole 133 formed in the front explosion-proof plate 132 is not separated by the pressure in the end packing 120, So that the front flameproof plate 132 is positioned.

5D, a plurality of insert blocks 140 are used to wrap the cable 20, and then the insert block 140 is inserted into the receiving space of the end packing 120, .

Therefore, the gas-barrier connecting pipe 100 according to an embodiment of the present invention is simple in construction and can prevent the inflow of polluted air and gas from the outside into the building, and can be easily and easily assembled using bolts or the like Thereby reducing the time required for the work to be performed.

Further, by using the bolts S, it is easy to disassemble and assemble.

Meanwhile, as another embodiment of the present invention, the configuration of the gas barrier connecting tube 200 may be partially changed.

Specifically, as shown in FIG. 6, a tubular body 210 having both sides opened and having a hollow therein, a tubular body 210 positioned in the body 210 and having a receiving space therein, The end pieces 220 are fixed on the end portions of the end packing 220. The end pieces 220 are formed on both sides of the end packing 220. The plurality of pieces 232 are formed into a circular plate shape, A pair of first explosion-proof plates 230 which are formed on a surface of the end plate 220 so that a plurality of through-holes 233 are formed on a surface to be coupled to the first explosion-proof plate 230, A pair of second explosion-proof plates 230 are formed in the same shape as the first explosion-proof plate 230, and a plurality of slices 242 are mutually coupled in a direction orthogonal to the slice 232 of the first explosion- A first explosion-proof plate (240), a second explosion-proof plate (240) The end flaps 220 are formed in a circular plate shape when they are coupled to each other. The end flaps 220 are formed with through-holes having the same diameter as the accommodating space formed in the end packing 220, A pair of guide protrusion plates 250 formed with a plurality of guide grooves 252 and a plurality of insert blocks 260 installed in an accommodation space of the end packing 220 and covering each of the cables 20 .

In other words, the body 210 and the end packing 220 have the same structure as that of the embodiment, and are formed in the shape of a circular plate by mutual engagement on both sides of the receiving space of the end packing 220, The first explosion-proof plate 230 is provided with the first explosion-proof plate 230 and the second explosion-proof plate 230 is coupled to the outside of the first explosion-proof plate 230 in a direction orthogonal to the first explosion- And a plate 240.

By installing the guide explosion-proof plate 250 on the outer side of the second explosion-proof plate 240 so that the first explosion-proof plate 230 and the second explosion-proof plate 240 are not separated from the end packing 220, So that the work can be performed easily and easily, and at the same time, the separation can be facilitated.

Accordingly, the gas barrier connecting pipe 200 according to another embodiment of the present invention has a structure in which all the components except for the body 210 installed to penetrate the wall of the building can be separated from each other, .

That is, in the case of the gas barrier connecting pipe 100 according to the embodiment of the present invention shown in FIG. 3, the end packing 120 and the explosion proof plate 130 can be separated from each other in the body 110, It is easy to perform repairing and the like as compared with the conventional connecting pipe because the structure can not be separated by the cable 20 positioned to pass through the packing 120 and the explosion proof plate 130. However, 130), it has been difficult to repair and repair substantially.

However, in the case of the gas barrier connecting pipe 200 according to another embodiment of the present invention shown in FIG. 6, the end packing 220 and the first and second explosion-proof plates 230 and 240 are separated from the body 210 Not only the structure that can be separated from the cable 20 but also the structure that can be separated from the cable 20 can be replaced and can be combined or separated using a bolt simply.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: wall 100, 200: gas barrier connection pipe
110: body 112: bolt hole
120: end packing 130: explosion proof plate
132: front explosion-proof plate 133: through-hole
136: Rear explosion-proof plate 137:
140: insert block 210: body
220: end packing 230: first explosion proof plate
240: second explosion-proof plate 250: guide explosion-proof plate
260: Insert block

Claims (9)

delete delete delete delete A tubular body having both sides opened and having a hollow inside,
An end packing disposed in the body and having a receiving space penetrated therein,
A pair of first explosion-proof plates which are fixedly installed on both sides of the end packing, the plurality of pieces being coupled to each other to form a circular plate, ,
And a plurality of the slits are coupled to the outer sides of the first explosion-proof plate coupled to both sides of the end packing, and are formed in the same shape as the first explosion-proof plate, A pair of second flameproof plates,
And a second explosion-proof plate provided on the outer side of the second explosion-proof plate to guide the first explosion-proof plate and the second explosion-proof plate so as not to be separated from the end packing, A pair of guide-type explosion-proof plates formed with through-holes having the same diameter as the guide-
And a plurality of insert blocks installed in the accommodating space of the end packing for covering respective cables.
The gas barrier connection tube according to claim 5, wherein each of the plurality of insert blocks is formed as a pair, and is formed in the shape of a rectangular tube having a circular hollow inside when coupled to each other.
The gas-barrier connection tube according to claim 5, wherein the insert block that does not wrap the cable among the plurality of insert blocks is formed in a square pillar shape without a hollow inside.
6. The gas barrier connection tube according to claim 5, wherein the end packing is formed of a rubber material having an elastic restoring force. delete

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