KR101927666B1 - A connecting structure of a pipe for a cable - Google Patents

Abstract

According to one embodiment of the present invention, a connecting structure of a pipe for an underground cable, in a connecting structure of a pipe for an underground cable to install an underground cable by connecting first and second pipes embedded underground and placing the cable in the connected pipes, comprises: a first pipe connection part having a first insertion port into which an end portion of the first pipe is inserted; a second pipe connection part having a second insertion port into which an end portion of the second pipe is inserted; and a link connecting the first and second pipe connection parts and adjusting the length of a central shaft by applied force.

Description

A connecting structure of a pipe for a cable

More particularly, the present invention relates to a connection structure of an underground cable pipe connecting a first pipe line and a second pipe line buried in the ground and laying a cable in a pipe line connected to the underground cable, will be.

Generally, a plurality of concrete boxes are connected to an underground joint of a housing complex, and a power line and a communication line are installed therein or a pipeline is installed.

The underground joint having a plurality of concrete boxes connected in the longitudinal direction has a sealant and an outer wall protective coating structure to prevent leakage to the joint, but has a problem of bottoming if the joint is not rigidly treated.

Most of these concrete boxes are installed in the ground because groundwater flows through the joints because the soil layer surrounds the surroundings. Conventionally, there is a problem in that a leakage phenomenon frequently occurs in the protective pipe or pipe pipe joint because the pipe is wrapped around the protective pipe joint that protects the underground cable branched from the manhole and is constructed with a simple structure of caulking.

Korean Patent No. 10-078577

SUMMARY OF THE INVENTION An object of the present invention is to provide an underground cable channel connection structure in which a first channel and a second channel embedded in the ground are connected to each other and a cable is laid in the channel to connect the underground cable.

The underground cable pipe connection structure according to an embodiment of the present invention is characterized in that in an underground cable pipe connection structure in which a first pipe line and a second pipe line buried in the ground are connected to each other, A second pipe connection portion having a first pipe connection portion having a first insertion port into which an end of the first pipe is inserted, a second insertion port into which an end portion of the second pipe is inserted, and a second pipe connection portion having a first pipe connection portion, And a link portion connecting the tube connection portion and adjusting the length in the direction of the central axis by an applied external force, wherein the link portion is formed with a wrinkle portion that contracts or expands so that the length in the direction of the central axis is adjusted by the applied external force A first extension part connected to one side of the body part and inserted into the first tube connection part, and a second extension part connected to the other side of the body part and inserted into the second tube connection part, And the first pipe connecting portion includes a first connecting hole into which the first extending portion is inserted while being arranged in a mirror image with the first connecting portion and the first connecting portion, And the second tube connection portion is disposed in a mirror-like configuration with the second-1 connection portion and the second-first connection portion in which the second insertion port is formed, And a second-2 connection portion having two communication ports, and the pleats can be bent or adjusted in length according to the positional relationship between the first channel and the second channel.

The first pipe connection portion of the underwater cable pipe connection structure according to an embodiment of the present invention may include a first pipe connection portion interposed between the first 1-1 connection portion and the first 1-2 connection portion, And a first variable portion elastically deformed in accordance with a positional relationship of the first and second connection portions to change a forming angle or a separation distance of the first and second connection portions, Wherein the second-1 connecting portion and the second-2 connecting portion are elastically deformed according to a positional relationship of the second-second connecting portion with respect to the second-1 connecting portion, And a second variable portion changing the formation angle or the separation distance of the 2 < 2 > -connection portion.

The first pipe connection portion of the underwater cable pipe connection structure according to an embodiment of the present invention may include a first lock portion formed on an outer surface of the 1-1 connection portion and extending toward the 1-2 connection portion, And a first fastening portion formed on an outer surface of the first-second connecting portion and fastened to the first locking portion to restrict movement of the first-second connecting portion with respect to the first-first connecting portion, The tube connecting portion includes a second locking portion formed on an outer surface of the second-second connecting portion and extending toward the second-second connecting portion, and a second locking portion formed on an outer surface of the second- And a second fastening part which is fastened to the second-1 connection part and restricts the movement of the second-second connection part with respect to the second-1 connection part.

The 1-1 connecting portion of the underwater cable duct connecting structure according to an embodiment of the present invention includes a 1-1 penetration portion embedded from the opposite surface of the surface on which the first insertion port is formed, And a second 1-1 penetration port which is inserted from the first insertion port and communicated with the first insertion port, the 1-2 connection portion includes a 1-2 penetration portion embedded from the opposite surface of the surface on which the first communication port is formed, And a second through hole penetrating from the first penetration portion and communicating with the first communication port, wherein the first variable portion is fixed to the first penetration portion, 1-2 coupling portion to connect the first 1-1 coupling portion and the 1-2 coupling portion, and when the first locking portion is fastened to the first coupling portion, the first 1-1 coupling portion and the 1-2 coupling portion, 1-2 connection portion is brought into close contact with the first connection portion and the second connection portion, It is possible to prevent the distance from being changed.

The first locking portion of the underwater cable conduit connection structure according to an embodiment of the present invention is configured such that when the first locking portion is fastened to the first coupling portion, the first 1-1 coupling portion and the 1-2 coupling portion are brought into close contact with each other, 1-1 and the first 1-2 enclosed portion are formed so that the first 1-1 coupling portion and the 1-2 first coupling portion are separated from each other when the first coupling portion is disengaged Wherein the first engaging portion and the second engaging portion are exposed to the outside, and wherein when the first locking portion is engaged with the first engaging portion, the first variable portion is elastically deformed by compression, When the first locking portion is disengaged from the first locking portion, the first-1-connection portion and the first-second coupling portion are spaced apart from each other by a restoring force due to compression elastic deformation , The forming angle or spacing between the 1-1 connecting portion and the 1-2 connecting portion So that the distance can be varied.

The body portion of the underwater cable duct connection structure according to an embodiment of the present invention may further include a cover portion formed of a fluid material and covering the inner side surface and interlocking with the deformed contraction or expansion by the applied external force, , The size of the end area of the first inlet (1) is larger than the size of the end area of the first through hole (1), the size of the end area of the inner space provided by the first channel, The size of the end area of the through hole, the size of the end area of the first through hole and the size of the end area of the inner space provided by the first extending part may be the same.

The first insertion port of the underwater cable pipe connection structure according to an embodiment of the present invention is formed to have the same size as the thickness of the first pipe and has a 1-1 second step portion defining the insertion limit of the first pipe The first communication hole may be formed to have the same size as the thickness of the first extending portion, and may have a first-second step that defines an insertion limit of the first extending portion.

The first pipe connection portion of the underwater cable pipe connection structure according to an embodiment of the present invention may be configured such that while the end portion of the first pipe is inserted into the first insertion port while being fitted to the outer peripheral surface of the first pipe end portion, 1 interposed between the first insertion port and the end of the first conduit to elastically deform the first conduit from the first insertion port and to prevent the first conduit from being drawn out from the first insertion port, 1 is compressed and elastically deformed between the first communication opening and the first extending portion while the first extending portion is inserted into the first communication portion while being fitted in the airtight portion and the outer peripheral surface of the first extending portion, And a first and second airtight parts which interfere with the extraction of the first communication part from the first communication part and maintain the airtightness between the first communication part and the first extension part.

The 1-1 airtight portion of the underwater cable duct connection structure according to an embodiment of the present invention may be configured such that, when the end portion of the first duct is inserted into the first insertion port in a state of being fitted to the outer peripheral surface of the first duct end portion, So that the first channel can be easily inserted into the first insertion port by rolling contact with the outer circumferential surface of the first channel end in the direction opposite to the insertion direction of the first channel.

The underwater cable duct connecting structure according to an embodiment of the present invention may further include a third pipe connecting part formed in the same manner as the first pipe connecting part and a second link part formed like the link part, And the second link part connects the third pipe connection part and the second pipe connection part so that the underwater cable pipe connection structure can be extended.

According to the present invention, when an underground cable is incorporated to connect protected ducts to each other, it is possible to connect the two ducts without being restricted by the work space between the two ducts.

In addition, it is easy to mount on the end portions of both pipe ends, and the working time can be shortened.

Also, it is easy to adjust the length and angle according to the positional relationship of the pipeline to be connected, so that a separate connecting member is not required.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are schematic cross-sectional views illustrating a connection structure of an underground cable line according to an embodiment of the present invention;
3 is an exploded cross-sectional view illustrating a connection portion of a first pipe of a connection structure of an underground cable pipe according to an embodiment of the present invention.
FIG. 4 is an exploded cross-sectional view illustrating a connection portion of a second pipe of a connection structure of an underground cable pipe according to an embodiment of the present invention. FIG.
5 is a schematic view for explaining an airtight portion of a connection structure of an underground cable duct according to an embodiment of the present invention.
6 is a cross-sectional view illustrating a link portion of a connection structure for an underground cable duct according to an embodiment of the present invention.
FIG. 7 is a cross-sectional view illustrating a locking part and a fastening part of a connection structure of an underground cable duct according to an embodiment of the present invention; FIG.
FIG. 8 is a cross-sectional view illustrating a variable portion of a connection structure of an underground cable channel according to an embodiment of the present invention; FIG.
FIG. 9 is a schematic view for explaining an extension structure of a connection structure of a submarine cable duct according to an embodiment of the present invention; FIG.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

1 and 2 are schematic cross-sectional views illustrating a connection structure of an underground cable line according to an embodiment of the present invention.

FIG. 3 is an exploded cross-sectional view illustrating a connection portion of a first pipe of a connection structure of an underground cable pipe according to an embodiment of the present invention, FIG. 4 is a cross- Fig.

FIG. 5 is a schematic view for explaining an airtight portion of an underground cable duct connecting structure according to an embodiment of the present invention, FIG. 6 is a sectional view for explaining a link portion of an underground cable duct connecting structure according to an embodiment of the present invention to be.

7 is a cross-sectional view for explaining a locking part and a fastening part of a connection structure of a submarine cable line according to an embodiment of the present invention, and FIG. 8 is a perspective view illustrating a variable part of a submarine cable line connection structure according to an embodiment of the present invention Fig.

Referring to FIGS. 1 and 2, an underground cable channel connecting structure according to an embodiment of the present invention includes a first channel P1 and a second channel P2 buried in the ground, Thereby providing a connection structure for installing an underground cable.

The underground cable pipe connection structure according to an embodiment of the present invention may include a first pipe connection portion 10, a second pipe connection portion 20, and a link portion 30.

The first pipe connection part 10 may include a first insertion port 111 (see FIG. 3) into which the end of the first pipe P1 is inserted.

The second pipe connection part 20 may include a second insertion hole 211 (see FIG. 4) into which the end of the second pipe P2 is inserted.

The link portion 30 connects the first tube connection portion 10 and the second tube connection portion 20 and the length in the direction of the central axis can be adjusted by an applied external force.

5, the link portion 30 includes a body portion 31 having a wrinkle portion 311 contracted or expanded to adjust the length in the direction of the central axis by the applied external force, 31 which are connected to one side of the body portion 31 and inserted into the first tube connection portion 10 and a second extension portion 33 which is connected to the other side of the body portion 31 and inserted into the second tube connection portion 20, And may include an extension 35.

Referring to FIG. 3, the first tube connection part 10 includes a first connection part 11 formed with the first insertion opening 111, and a second connection part 11 disposed in an enamel shape with the first connection part 11 And a second connecting portion 12 having a first communication hole 121 into which the first extending portion 33 is inserted.

4, the second tube connection part 20 includes a second-1 connection part 21 in which the second insertion hole 211 is formed, and a second connection part 21 in which the second insertion part 211 is formed, And a second connection portion 22 having a second communication hole 221 into which the second extension portion 35 is inserted.

The pleats 311 may be bent or adjusted in length according to the positional relationship between the first conduit P1 and the second conduit P2. The pleats 311 are formed in a bellows shape and can be bent, contracted, or expanded by an applied external force.

The first pipe line P1 and the second pipe line P2 are connected by the corrugated part 311 even if the first pipe line P1 and the second pipe line P2 are not arranged in parallel to each other .

The link unit 30 may provide an operator's workpiece for connecting the first conduit P1 and the second conduit P2. Specifically, in order to connect the first pipeline P1 and the second pipeline P2 buried in the ground, the operator must enter a narrow pit in which the first pipeline P1 and the second pipeline P2 are located And the connecting member is positioned between the first conduit P1 and the second conduit P2 and the connecting members are respectively connected to the first conduit P1 and the second conduit P2. In this case, if the connecting member is formed to have the same size as the distance between the first conduit P1 and the second conduit P2, positioning the connecting member between the first conduit P1 and the second conduit P2 It is not easy.

When the first pipe connecting portion 10, the second pipe connecting portion 20 and the link portion 30 are positioned between the first conduit P1 and the second conduit P2, The wrinkled portion 311 of the first pipe P1 and the first pipe connecting portion P1 is positioned between the first pipe P1 and the second pipe P2 in a state in which the entire length of the wrinkle portion 311 is contracted, 10 and the contracted wrinkles 311 are extended to connect the second pipe line P2 and the second pipe connection portion 20 to minimize the inconvenience of the operator due to the narrow working space.

The corrugated portion 311 can be bent according to the direction of the applied external force as well as the length of the corrugated portion 311 due to contraction or expansion. Therefore, the first channel P1 and the second channel P2 are arranged in parallel So that they can be easily connected even if they are not in use.

3, the first tube connection part 10 is interposed between the first connection part 11 and the first connection part 12 and the first connection part 11, (11) and the second connecting portion (12), and the second connecting portion (12) is elastically deformed according to the positional relationship of the first connecting portion And may further include a first variable portion 13.

The first variable portion 13 is elastically deformed according to the positional relationship between the first connecting portion 11 and the second connecting portion 12 so that the first connecting portion 11 and the second connecting portion 12 are elastically deformed, The connection structure between the first conduit P1 and the second conduit P2 can be prevented from being broken or damaged even if the second conduit P2 is moved to prevent foreign matter or moisture from entering the conduit, This prevents damage to underground cables, which reduces the cost of repair work and reduces the cost of repairing underground cables.

For reference, in case of damage of cable due to subsidence or depression of the ground, in order to grasp the point of damage, it is necessary to visually check the buried channel. For this purpose, It is very difficult to remove the ground as much as possible.

For reference, the corrugated portion 311 described above is deformed in order to adjust it according to the separation distance and the arrangement angle between the first conduit P1 and the second conduit P2 so that the convenience of the work and the separation distance of the conduit The first variable portion 13 prevents breakage and damage of the connection structure due to settlement or depression of the ground, thereby protecting the cable and extending the life of the underground cable pipeline.

The first pipe connecting portion 10 includes a first locking portion 14 formed on an outer surface of the first connecting portion 11 and extending toward the first connecting portion 12, The first locking part 14 is formed on the outer surface of the second connecting part 12 and restricts the movement of the first connecting part 12 with respect to the first connecting part 11 And a first fastening part 15 may be provided.

The 1-1 connecting portion 11 is formed with a first penetrating portion 112 embedded from the opposite side of the surface on which the first inserting port 111 is formed, And a 1-1 through hole (113) communicating with the first insertion hole (111).

The first and second connecting parts 12 and 12 are connected to the first and second connecting parts 121 and 122 through the first and second connecting parts 122 and 122, And a second through hole 123 communicating with the first communication hole 121. [

The first variable portion 13 is fixed to the first inclined portion 112 and the other is fixed to the first inclined portion 122 to form the first connecting portion 11, And the second connecting portion 12 may be connected to each other.

Referring to FIG. 6, when the first locking part 14 is fastened to the first fastening part 15, the first 1-1 coupling part 11 and the 1-2 first coupling part 12 are in close contact with each other So that it is possible to prevent the formation angle or the separation distance of the 1-1 connection unit 11 and the 1-2 connection unit 12 from being changed.

Specifically, when the first locking part 14 is fastened to the first fastening part 15, the first locking part 14 and the second connecting part 12 are brought into close contact with each other, The first space 112 and the second space 122 may be closed to form a first space.

At this time, the first variable portion 13 can be accommodated in the first space with compression elastic deformation.

When the first locking part 14 is unfastened in the state of being fastened to the first fastening part 15, the first-first connecting part 11 and the first-second connecting part 12 So that the first 1-1 penetration part 112 and the 1st 1-2 penetration part 122 can be exposed to the outside.

More specifically, when the first locking portion 14 is disengaged from the first coupling portion 15, the variable portion is moved in the direction of the first connecting portion 11, 1-2 connecting portion 12 can be spaced apart. The first connecting portion 11 and the second connecting portion 12 spaced apart by the first variable portion 13 are connected to each other by elastic deformation of the first variable portion 13, The distance may vary.

The connection structure of the underwater cable duct of the present invention is such that before being connected to the first conduit P1 or the second conduit P2 by being disposed between the first conduit P1 and the second conduit P2, (P1) and the first pipe connecting portion (10) are easily maintained by maintaining the state where the first pipe (14) is fastened to the first fastening portion (15) The connection of the first connection part 10 to the first connection part 10 is released so that the movement of the first connection part 12 with respect to the first connection part 11 is transmitted through the first change part 13 .

This is because during the connection operation between the first conduit P1 and the first conduit connection 10, the position of the first conduit P1 through the first variable portion 13 of the first connection portion 11 and the first connection portion 12, This is to solve the inconvenience of the operation due to the movement.

The first insertion port 111 is formed to have the same size as the thickness of the first channel P1 and has a first-stage step portion 111a defining the insertion limit of the first channel P1 .

The first communication hole 121 is formed to have the same size as the thickness of the first extending portion 33 and has a first-second step portion 121a defining the insertion limit of the first extending portion 33, .

4, the second tube connection part 20 is interposed between the second-first connection part 21 and the second-second connection part 22, Which is elastically deformed in accordance with the positional relationship of the second-second connecting portion (22) with respect to the second connecting portion (21), and changes the forming angle or the separation distance of the second- And may further include a variable portion 23.

Since the second variable portion 23 has the same technical content as the first variable portion 13 described above, the description of the first variable portion 13 is omitted.

The second pipe connecting portion 20 includes a second locking portion 24 formed on the outer surface of the second-1 connecting portion 21 and extending toward the second-second connecting portion 22, 2 connecting portion 22 and the second locking portion 24 so as to restrict the movement of the second-second connecting portion 22 relative to the second-1 connecting portion 21 And a second fastening portion 25 may be provided.

The second-1 connecting portion 21 is inserted into the second-1 embedding portion 212 and the second-1 embedding portion 212, which are embedded from the opposite side of the surface on which the second insertion opening 211 is formed, And a second through hole (213) communicating with the second insertion hole (211).

The second -2 connecting portion 22 is connected to the second 2-2 entering portion 222 and the 2nd 2 entering portion 222 inserted from the opposite side of the surface on which the second communication opening 221 is formed And a second through hole 223 which is inserted and communicated with the second communication hole 221.

One end of the second variable portion 23 is fixed to the second -1 incision portion 212 and the other end is fixed to the 2-2 incision portion 222, And the second-2 connection unit 22 can be connected.

The second locking portion 24 may be formed so that the second-1 connecting portion 21 and the second-second connecting portion 22 are in close contact with each other when the second locking portion 24 is fastened to the second fastening portion 25, -1 connecting portion 21 and the second-2 connecting portion 22 can be prevented from being changed.

Specifically, when the second locking portion 24 is fastened to the second fastening portion 25, the second-1 connecting portion 21 and the second-2 connecting portion 22 are brought into close contact with each other, Thereby forming a second space in which the 2 < nd > 1 -doped part 212 and the 2 < nd > 2 -doped part 222 are closed.

At this time, the second variable portion 23 can be accommodated in the second space with compression elastic deformation.

When the second lock portion 24 is unfastened in the state of being fastened to the second fastening portion 25, the second-first coupling portion 21 and the second-second coupling portion 22 So that the 2-1th recessed part 212 and the 2-2th recessed part 222 can be exposed to the outside.

Specifically, when the second lock portion 24 is disengaged from the second engaging portion 25, the variable portion is elastically deformed by the restoring force resulting from the compression elastic deformation, 2-2 the connecting portion 22 can be spaced apart. The second-first connecting portion 21 and the second-second connecting portion 22 spaced apart by the second variable portion 23 are connected to each other by elastic deformation of the second variable portion 23, The distance may vary.

8, the first pipe connecting portion 10 is inserted into the first insertion port 111 while the end of the first pipe P1 is inserted into the outer circumferential surface of the first pipe P1. Between the first insertion port (111) and the end of the first conduit (P1), thereby preventing the first conduit (P1) from being drawn out from the first insertion port (111) And a 1-1 airtight portion 16 for keeping the airtightness between the first inlet 111 and the first duct P1.

The 1-1 airtight portion 16 maintains airtightness between the first conduit P1 and the first conduit connecting portion 10 to prevent foreign matter or moisture from flowing through the connecting portion. As a result, the passage through which the underground cable travels can be kept airtight from the outside, and can be excellent for protecting the underground cable.

The first airtight portion 16 is inserted into the first insertion port 111 while the end of the first duct P1 is inserted into the first insertion port 111 in a state of being fitted to the outer peripheral surface of the end portion of the first duct P1. And the first channel P1 is brought into rolling contact along the outer peripheral surface of the end portion of the first pipe P1 in the direction opposite to the insertion direction of the first pipe P1 so that the insertion of the first pipe P1 into the first insertion port 111 It can be facilitated.

While the first extension portion 33 is inserted into the first communication hole 121 while being fitted to the outer peripheral surface of the first extension portion 33, the first communication hole 121 and the first Is elastically deformed by compression between the first extension portion (33) and the second extension portion (33), thereby preventing the first extension portion (33) from being drawn out from the first communication hole (121) And a second airtight portion 17 for keeping the airtightness between the first airtight portion 33 and the second airtight portion 17.

The first and second airtight parts 17 and 17 are the same as the first and second airtight parts 16 and 16, respectively.

The second pipe connection portion 20 is inserted into the second insertion hole 211 while the end of the second pipe P2 is inserted into the outer peripheral surface of the end portion of the second pipe P2, (211) and the end of the second conduit (P2) to prevent the second conduit (P2) from being drawn out from the second insertion port (211), and the second insertion port And a second-1 airtight portion 26 for keeping airtightness between the second conduits P2.

While the second extending portion 35 is inserted into the second communication hole 221 while being fitted to the outer peripheral surface of the second extending portion 35, the second communication hole 221 and the second And is elastically deformed by compression between the extension portions 35 to interfere with the drawing of the second extension portion 35 from the second communication hole 221. The second communication hole 221, And a second-2 airtight portion 27 for keeping the airtightness between the second airtight portion 35 and the second airtight portion 27.

The body part 31 according to an embodiment of the present invention further includes a cover part 312 formed of a fluid material and covering the inner side surface and interlocked with the contraction or expansion by the applied external force .

The cover part 312 is formed inside the corrugated part 311 and protects the inner space when the corrugated part 311 is damaged by frequent deformation due to contraction, expansion or bending of the corrugated part 311 .

The size of the end area of the 1-1 penetration part 112 may be larger than the size of the end area of the 1-1 through-hole 113.

The size of the end area of the inner space provided by the first conduit P1, the size of the end area of the first through hole 113, the size of the end area of the first through hole 123, Size and the size of the end area of the inner space provided by the first extension portion 33 may be the same.

9 is a schematic view for explaining an extension structure of a connection structure of a submarine cable duct according to an embodiment of the present invention.

The underground cable pipe connection structure according to an embodiment of the present invention includes a third pipe connection part 40 formed like the first pipe connection part 10 and a second pipe connection part 40 formed like the link part 30, (50).

The third pipe connection part 40 may be connected to one side of the link part 30. [

The second link part 50 connects the third pipe connection part 40 and the second pipe connection part 20 so that the underwater cable pipe connection structure can be extended.

The distance between the first pipe P1 and the second pipe P2 may vary depending on the construction of the first pipe P1 and the second pipe P2. Moving work may not be easy. According to the pipe connection structure of the present invention, in such a case, by connecting a plurality of pipe connection portions and link portions, it is possible to easily extend the connection member without moving the pipe by compensating the separation distance of the pipe, The work is not carried out, and the additional cost and time due to the additional work can be saved.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes or modifications may fall within the scope of the appended claims.

P1: first channel
P2: second channel
10: First tube connection
20: second tube connection
30: Link section
40: Third connection part
50: second link portion

Claims (10)

An underground cable conduit connection structure for connecting a first conduit and a second conduit embedded in the ground and providing a cable to the conduit to connect the underground cable,
A first pipe connection part having a first insertion port into which an end of the first channel is inserted;
A second pipe connection part having a second insertion port into which an end of the second pipe is inserted; And
And a link portion connecting the first tube connecting portion and the second tube connecting portion and adjusting the length in the direction of the central axis by an applied external force,
Wherein,
A first extension part connected to one side of the body and inserted into the first tube connection part, and a second extension part connected to the other side of the body part, And a second extension part connected to the second tube connection part,
The first tube connection part
And a first connecting portion having a first connecting portion formed with the first inserting port and a first connecting portion inserted with the first extending portion while being arranged in a mirror image with the first connecting portion,
Wherein the second tube connection portion comprises:
And a second-second connection portion having a second connection portion in which the second insertion port is formed and a second communication port in which the second extension portion is inserted while being mirror-polished with the second-first connection portion,
The folded-
Wherein the first conduit is bent or length-controlled according to a positional relationship between the first conduit and the second conduit,
The first tube connection part
And the second connecting portion is elastically deformed in accordance with the positional relationship of the first connecting portion with respect to the first connecting portion while being interposed between the first connecting portion and the second connecting portion, Further comprising a first variable portion changing a forming angle or a separation distance of the 1-2 connecting portion,
Wherein the second tube connection portion comprises:
Wherein the second-1 connecting portion and the second-2 connecting portion are elastically deformed according to a positional relationship of the second-second connecting portion with respect to the second-1 connecting portion, And a second variable portion changing a forming angle or a separation distance of the 2 < 2 > connecting portion,
The first tube connection part
A first locking portion formed on an outer surface of the first connecting portion and extending toward the first connecting portion and a second locking portion formed on an outer surface of the first connecting portion, And a first fastening part for restricting the movement of the 1-2 connecting part with respect to the 1-1 connecting part,
Wherein the second tube connection portion comprises:
A second locking portion formed on the outer surface of the second-1 connecting portion and extending toward the second-second connecting portion, and a second locking portion formed on the outer surface of the second- And a second fastening part for restricting the movement of the second-second coupling part with respect to the second-first coupling part,
The 1-1 connection unit
And a 1-1 through hole penetrating from the opposite side of the surface on which the first insertion port is formed and a 1-1 through hole penetrating from the 1-1 penetration portion and communicating with the first insertion port,
The 1-2 connecting portion includes:
And a first through hole penetrating from the opposite side of the surface on which the first communication hole is formed and a first through hole penetrating from the first through hole and communicating with the first communication hole,
Wherein the first variable section comprises:
And the other end is fixed to the 1-2 penetration portion to connect the 1-1 connection portion and the 1-2 connection portion,
The first locking portion
When the first connecting portion and the second connecting portion are fastened to each other, the first connecting portion and the second connecting portion are brought into close contact with each other, and the forming angle or the separation distance of the connecting portion 1-1 and the connecting portion 1-2 is changed Wherein the cable is connected to the ground.
delete delete delete The method according to claim 1,
The first locking portion
The first 1-1 coupling portion and the 1-2 first coupling portion are brought into close contact with each other to form a first space in which the first 1-1 and second 1-2 insertion portions are closed, The first 1-1 coupling portion and the 1-2 first coupling portion are spaced apart from each other so that the first 1-1 penetration portion and the 1-2 first insertion portion are exposed to the outside And,
Wherein the first variable section comprises:
Wherein when the first locking portion is fastened to the first fastening portion, the first locking portion is accommodated in the first space with compression elastic deformation, and when the first locking portion is disengaged from the first fastening portion, And the forming angle or spacing distance of the 1-1 connecting portion and the 1-2 connecting portion may be varied while the 1-1 connecting portion and the 1-2 connecting portion are spaced apart from each other by a restoring force. Underground cable duct connection structure.
6. The method of claim 5,
In the body,
Further comprising a cover portion formed of a flowable material and covering the inner side surface and interlocking with the contraction or expansion caused by the applied external force,
The size of the terminal area of the 1-1 penetration portion is larger than the size of the terminal area of the 1-1 through-
A size of a longitudinal area of the inner space provided by the first duct, a size of a longitudinal area of the first through hole, a size of a longitudinal area of the first through hole, And the size of the area is the same.
The method according to claim 6,
The first insertion port
And a first-stage step portion having a size equal to the thickness of the first channel and defining an insertion limit of the first channel,
Wherein the first communication hole
Wherein the first extension portion has a size equal to the thickness of the first extension portion and has a first-second step that defines an insertion limit of the first extension portion.
The method according to claim 1,
The first tube connection part
While being inserted into the first insertion port while being fitted in the outer peripheral surface of the first conduit end portion and being compressed elastically deformed between the first insertion port and the end portion of the first conduit, A first airtight portion interfering with the drawing from the first insertion opening and maintaining the airtightness between the first insertion opening and the first duct,
The first extension portion is compressed and elastically deformed between the first communication hole and the first extension portion while the first extension portion is inserted into the first communication hole while being fitted to the outer peripheral surface of the first extension portion, Further comprising a second airtight portion interfering with the outflow from the communication port and maintaining the airtightness between the first communication port and the first extended portion.
9. The method of claim 8,
The first air-
Wherein the first pipe is inserted into the first insertion port in a state of being fitted to the outer circumferential surface of the first pipe end portion and in a direction opposite to the insertion direction of the first pipe, So as to facilitate insertion of the first channel into the first insertion port.
The method according to claim 1,
A third tube connecting part formed in the same manner as the first tube connecting part; And
And a second link portion formed in the same manner as the link portion,
The third pipe connecting portion is connected to one side of the link portion,
Wherein the second link part connects the third pipe connection part and the second pipe connection part to extend the underground cable pipe connection structure.

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