KR100873875B1 - Underground cable protection pipe - Google Patents

Abstract

An underground cable protection pipe is provided to facilitate installation regardless of weather change by controlling the air pressure of a tube ring unit according to the expansion of the pipe by including an air injection unit. An underground cable protection pipe(110) includes a pipe(110), a connection pipe(120), a first fixing pipe(130), a second fixing tube(140), a first tube ring unit(150), a connector(160), and a second tube ring unit(170). The pipe protects the cable which is laid under the surface. The pipe is repetitively connected in a longitudinal direction by facing the connecting piece. The first fixing pipe is coupled to one side of the connection pipe so that the connection piece inserted in one direction of the insertion hole(124) is connected inside the insertion hole without the separation. The second fixing pipe is connected in the other side of the connection pipe so that the connection piece inserted in the other direction of the insertion hole is connected inside the insertion hole without the separation. The first tube ring unit is closely adhered to a compartment piece(123). The second tube ring unit makes a close adhesion between the tube and the touch panel(163).

Description

Underground cable protection pipe

The present invention relates to underground cable protective tube, and more specifically, to the connection portion of the tube embedded in the ground to be wired and protected, and to bind them firmly and at the same time the connector and the connector to enable the movement of the predetermined interval of the tube And an underground cable protection tube provided with an air-filled tubing body to prevent foreign substances from entering into the inside and to prevent detachment and breakage of the connection part due to internal expansion of the tube. .

In general, underground lines such as conduits, gas pipes, and water and sewage pipes are installed in the underground of homes, commercial and industrial complexes.

The reason for embedding underground lines in the ground is to minimize the exposure of underground lines to prevent damage of underground lines due to external pressure.

However, underground lines buried in the ground can be robust to external pressure, but there is a problem of being easily deformed and broken in response to external weather conditions.

That is, when seasonal external climate (summer radiant heat or winter cold air) is delivered to the ground, it is absorbed as it is and transferred to underground underground lines, which causes the internal air of underground underground lines to contract and expand repeatedly. This is because the connection part of the underground line is separated or collided in the process.

In addition, underground lines embedded in the ground for a long time should be repaired after a certain period of time due to corrosion due to breakage and infiltration water due to their aging.

As such, in order to repair and replace the underground line, the underground line is excavated and the ground line is exposed to the outside, and then the repair and replacement work is performed.

At this time, the excavation work is performed quickly and easily using an excavator, and excavates the ground with a bucket installed in the excavator.

However, the excavation work using the excavator has a problem of destroying the underground line during the excavation.

That is, in the excavation process, the excavator driver does not know the location of the underground line and operates the bucket only with sense, so that the bucket impacts the underground line during the excavation.

The present invention has been made in view of the above-mentioned conventional problems, and an object thereof is a connector and a connector for firmly binding the connection part between a tube and a tube which are continuously buried in the ground so as to wire and protect the cable. By alternately installing each other and connecting the tubing body which forms a shape deformation by filling the air between the tubular body and the connecting pipe and the tubular body and the connector, the tubing body is normally close to the connection part of the tubular body to the inside It prevents foreign substances from flowing in, and geothermal heat is transferred to the tube, and when the tube expands internally, the tubing body is deformed by the expansion pressure of the tube to provide a space where the tube can be spaced at a predetermined interval. Underground cable sheaths are provided to prevent removal and damage.

Another object of the present invention is to provide an air inlet for controlling the air pressure filled in the tubing body to be installed by adjusting the air pressure of the tubing body according to the degree of expansion of the tube, the underground cable protection tube is constructed area Provide underground cable sheaths for easy installation regardless of climate change differences.

The present invention for achieving the above object

A tube body connected to the connecting pieces provided at one end in a longitudinal direction so as to protect the cable embedded in the ground and connected in a continuous manner in the longitudinal direction;

Interposed between the connecting piece and the connecting piece of the connecting piece to be in close contact with each other, it is interposed therebetween, and a protruding piece having a plurality of screw rods protruding on both sides in the middle of the outer surface is formed, the inside of the pipe in both directions An insertion hole in which an intermediate portion is partitioned by a partition piece so as to be connected to the insertion piece, a through hole communicating with a tube body is provided in the inside of the partition piece, and a connection pipe provided with a cable bar for seating a cable wired on an inner surface of the through hole;

The connecting piece inserted in one direction of the insertion hole is fastened to one side of the connecting pipe so as to be closely connected without being separated from the insertion hole, and makes a surface contact with the protruding piece on one side of the outer surface, and a screw rod is inserted therein. A first installation piece having a first fastening hole to be fastened to a nut is provided, and a first accommodation groove into which one end of the connection pipe is inserted is formed in the inside thereof, and the tubular body is inserted into the first side wall of the first accommodation groove. A first fixing tube having a first through hole formed therein, and having a plurality of first connecting rods protruding from the outer side surface of the first side wall;

The connecting piece inserted in the other direction of the insertion hole is fastened to the other side of the connecting tube so as to be closely connected without being separated from the insertion hole, and makes a surface contact with the protrusion on one side of the outer surface, the screw rod is inserted therein A second mounting piece having a second fastening hole to be fastened to the nut is provided, and a second receiving groove is formed in the other end of the connecting tube, and the tube is inserted into the second side wall forming the second receiving groove. A second fixing tube having a second through hole formed therein, and having a plurality of second connecting rods protruding from the first side of the second side wall, the second connecting rods having different angles from the first connecting rods;

In order to closely adhere the connecting piece to the partition piece and to secure a space for the connecting piece to move through the shape deformation during the internal expansion of the tube, the connecting piece is inserted between the first receiving groove and between the connecting piece and the second receiving groove, respectively. A pair of first tubing bodies connected to each other and having an air inlet for adjusting an amount of air filled in one side;

The first connecting rods inserted in different directions so as to be connected between the first fixing tube and the second fixing tube on the outer surface so as to be firmly coupled to the contact portion of the other end of the tube without the connecting piece. A connecting plate provided with a contact plate provided with a coupling hole through which second connecting rods are inserted and fastened to a nut, and inserted into the inner tube so as to communicate with the tube, and an insertion tube having a curved portion at an inner side thereof protrudes in both directions;

Closely connected between the other end of the tube and the contact plate and inserted into the outer surface of the insertion tube which is filled with air to protrude in both sides so as to secure a space for the tube to move through the shape deformation during internal expansion of the tube. It is configured to include a second tube ring body.

According to the present invention, after installing through the connecting pipe and the connector for fastening the cable to the connection portion of the pipe buried in the ground so as to wire and protect the cable, the air is filled between the pipe and the pipe shape By connecting and installing the deformed tubing body, the connection part of the tube is normally closed to prevent foreign substances from entering the inside, and geothermal heat is transferred to the tube, so that the tube is in close connection when the tube is inflated. Since the space is secured to be spaced a predetermined distance to the side of the tubing body to form a deformation, there is an effect that can prevent the removal and damage of the connection portion in advance.

In addition, the tubing body is provided with an air inlet for controlling the air pressure filled therein so that the air pressure of the tubing body can be properly adjusted according to the degree of expansion of the tubing body, thereby preventing climate change in the area where the underground cable protection pipe is constructed. Regardless, there is an effect that can be easily installed.

Hereinafter, the underground cable protective tube according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is a perspective view showing the underground cable protective tube according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view showing a underground cable protective tube according to a preferred embodiment of the present invention, Figure 3 is a preferred embodiment of the present invention A sectional view of the main part showing the underground cable sheath according to the present invention.

1 to 3, the underground cable protective tube 100 is a tube body embedded by repeatedly connecting the connecting pieces 111 to each other in the longitudinal direction to the ground (W) of the path in which the cable (L) is wired ( 110 and a connecting pipe 120 interposed between the connecting piece 111 and the connecting piece 111 so as to close the connection portion of the connecting piece 111 and the connecting piece 111 in contact with each other, and the connecting pipe 120 The first fixing pipe 130 and the connection pipe 120 fastened to one side of the connection pipe 120 so that the connection piece 111 inserted in one direction in the insertion hole 124 can be closely connected without being separated from the insertion hole 124. And a second fixing tube 140 fastened to one side of the connecting pipe 120 so that the connecting piece 111 inserted in the other direction is closely connected without being separated from the insertion hole 124, and the connecting piece 111. The first tubing body 150 for closely contacting the connecting pipe 120 and the pipe body 110 without the connecting piece 111. It comprises a connector 160 interposed therebetween for tightly binding the other end of the contact portion and the second tube ring body 170 for closely connecting the tube 110 and the connector 160. .

At this time, the tube 110 is a tube having a hollow portion that is open to both sides therein, is embedded in the ground (W) and the cable (L) is wired therein. Thus, the tubular body 110 is provided with a connecting piece 111 at one end thereof and is continuously connected to the connecting piece 111 in the longitudinal direction to face each other when embedded in the ground.

On the other hand, the connecting pipe 120 is interposed therebetween so as to close the connecting portion 111 and the connecting portion of the connecting piece 111 in contact with each other.

At this time, the connection pipe 120 is formed with a protrusion piece 122 having a plurality of screw rods 121 protruding to both sides in the middle portion of the outer surface, the connection piece 111 is inserted into both sides in the inner direction An insertion hole 124 having an intermediate portion partitioned by the partition piece 123 is provided, and a through hole 125 communicating with the tubular body 110 is provided inside the partition piece 123.

In addition, a plurality of cable support bars 127 are provided on the inner surface of the through hole 125 to allow the cable L to be routed to the tubular body 110 to be seated and organized.

On the other hand, the first fixing tube 130 is fastened to one side of the connection pipe 120 so that the connection piece 111 inserted in one direction of the insertion hole 124 can be closely connected without departing from the insertion hole 124 do.

At this time, the first fixing tube 130 is in surface contact with the protruding piece 122 on one side of the outer surface, the screw rod 121 is inserted into the first fastening hole 131 is fastened to the nut (N) The first installation piece 132 having a provided therein, the first receiving groove 133 is inserted into one end of the connecting pipe 120 is formed.

In addition, the first sidewall 134 constituting the first receiving groove 133 is provided with a first through hole 135 through which the tubular body 110 is inserted, and the outside of the first sidewall 134 is provided. A plurality of first connecting rods 136 are protruded on the side.

On the other hand, the second fixing tube 140 is fastened to the other side of the connection pipe 120 so that the connection piece 111 inserted in the other direction of the insertion hole 124 can be closely connected without being separated from the insertion hole 124 The second installation piece 142 having a second fastening hole 141 which is in surface contact with the protruding piece 122 on one side of the outer surface, and has a screw rod 121 inserted thereinto be coupled to a nut N. Is provided, the second receiving groove 143 is inserted into the other end of the connection pipe 120 is formed inside.

At this time, a second through hole 145 through which the tube body 110 is inserted is provided inside the second side wall 144 constituting the second receiving groove 143, and on the outer side surface of the second side wall 144. A plurality of second connecting rods 146 having different angles from the first connecting rods 136 are protruded.

Meanwhile, the first tubing body 150 closely contacts the connecting piece 111 to the partition piece 123 and secures a space in which the connecting piece 111 can move through shape deformation during internal expansion of the pipe body 110. Inserted and connected between the connecting piece 111 and the first receiving groove 133 and between the connecting piece 111 and the second receiving groove 143, respectively.

At this time, the first tubing body 150 is provided with an air inlet 151 for adjusting the amount of air filled inside the one side.

On the other hand, the connector 160 is interposed therebetween so as to firmly bind the contact portion of the other end of the tube 110 without the connecting piece 111.

At this time, the connector 160 is the first connecting rods 136 and the second connecting rods 146 which are inserted in different directions to be connected and fixed to the first fixing pipe 130 and the second fixing pipe 140 on its outer surface. Insertion tube having a curved portion 165 in the inner surface is inserted into the contact plate 163 is provided with a coupling hole 161 is inserted into the nut (N) is connected to the tubular 110 in the inner side ( 167 is provided to protrude in both directions.

On the other hand, the second tube ring body 170 closes between the other end of the tube body 110 and the contact plate 163 and at the same time secures a space in which the tube body 110 can move through the shape deformation during the internal expansion of the tube body 110. Filled with air so as to be inserted into each of the outer surface of the insertion pipe 167 protruding to both sides.

Thus, the underground cable protective tube of the present invention made of the above configuration to keep the connection portion of the tube close to the normal to prevent foreign substances from entering, and geothermal heat is transferred to the tube to ensure a tight connection of the tube when the internal expansion of the tube. In order to prevent the separation and breakage of the connection portion in advance by being able to be spaced a predetermined interval toward the tube ring body forming a shape deformation in this state, the coupling relationship and the effect of this will be described in detail.

Figure 3 is a sectional view showing the main part of the underground cable protective tube according to a preferred embodiment of the present invention, Figure 4 is a sectional view showing the main part of the installation of the underground cable protective tube according to a preferred embodiment of the present invention.

Referring to FIGS. 3 and 4, first, the pipe bodies 110 are symmetrically inserted and connected to both sides of the insertion hole 124 of the connection pipe 120. At this time, the connecting piece 111 of each of the tubular body 110 is inserted into the insertion hole 124 is in close contact with the partition piece 123.

Thereafter, the first tube ring body 150 is inserted into and connected to the outer surface of the other end of each of the tube bodies 110. At this time, the first tubing body 150 is in close contact with the connecting piece 111.

Thereafter, the first fixing tube 130 and the second fixing tube 140 are inserted into and connected to the other ends of the respective tube bodies 110. That is, the other end side of the tubular body 110 is inserted into and connected to the first through hole 135 of the first fixing tube 130 and the second through hole 145 of the second fixing tube 140.

At this time, the first fixing tube 130 and the second fixing tube 140 is preferably positioned symmetrically with respect to the connection pipe 120.

In addition, one end of the connecting tube 120 is inserted into the first receiving groove 133 of the first fixing tube 130, and the connecting tube 120 is inserted into the second receiving groove 143 of the second fixing tube 140. The other end of is inserted, the first tube ring body 150 is located in the first receiving groove 133 and the second receiving groove 143. Accordingly, the connecting piece 111 and the first and second receiving grooves 133 and 143 are intimately contacted by the first tubing body 150.

In addition, the first mounting piece 132 of the first fixing pipe 130 and the second mounting piece 142 of the second fixing pipe 140 are in close contact with both sides of the protruding piece 122 of the connecting pipe 120. The screw rod 121 of 122 is inserted into the first fastening hole 131 and the second fastening hole 141, and protrudes to the outside of the first fastening hole 131 and the second fastening hole 141. The nut N is fastened to the end of the screw rod 121.

Thus, the connecting pipe 120 has a strong binding relationship with the first fixing pipe 130 and the second fixing pipe 140.

Thereafter, the connector 160 is connected to the contact portion of the tubular body 110 without the connecting piece 111 interposed therebetween. At this time, the insertion tube 167 protruding in both directions of the connector 160 is inserted into the inner tube (110).

In addition, the coupling hole 161 of the contact plate 163, the second fixing pipe installed on the other side of the first connecting rod 136 and the connector 160 of the first fixing pipe 130 installed on one side adjacent to the connector 160 The second connecting rod 146 of 140 is inserted so that the end thereof is nut fastened.

Accordingly, the connector 160 has a close binding relationship with the first fixing tube 130 and the second fixing tube 140.

At this time, between the other end of the tubular body 110 and the contact plate 163 is interposed between the second tube ring body 170 is filled with air to achieve a shape deformation.

Accordingly, when geothermal heat is generated by the sunlight and the inside of the tube is expanded, the tube 110 is spaced apart from the connecting portion by the expansion pressure.

At this time, the connecting piece 111 of the tubular body 110 moves to the first tubing body 150 in the first and second receiving grooves 133 and 143 to press the first tubing body 150, and the first tube being pressurized. The ring body 150 forms a shape to provide a space in which the connecting piece 111 can move.

In addition, the other end of the tubular body 110 moves to the second tubing body 170 to press the second tubing body 170, the pressurized second tubing body 170 is a shape deformation to form a tubular body 110 Provide space for movement.

Therefore, by allowing the tube to move a predetermined interval in the airtight state, it is possible to prevent damage to the connection portion due to the internal expansion of the tube.

1 is a perspective view showing a underground cable protective tube according to a preferred embodiment of the present invention,

Figure 2 is an exploded perspective view showing a underground cable protective tube according to a preferred embodiment of the present invention,

3 is a sectional view showing the main portion of the underground cable protective tube according to a preferred embodiment of the present invention;

Figure 4 is a sectional view of the main part showing the installation state of the underground cable protective tube according to a preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

110: tube 120: connector

127: cable bracket 130: first fixing pipe

140: second fixing pipe 150: first tube ring body

151: air inlet 160: connector

170: second tube ring body W: ground

N: Nut

Claims (1)

Conduit 110 is connected to the connecting piece 111 provided at one end to be continuously embedded in the longitudinal direction to protect the cable (L) embedded in the ground (W); Protruding piece 122 having a plurality of screw rods 121 which are interposed therebetween so as to close the connecting portion 111 and the connecting portion of the connecting piece 111 to be in close contact with each other, protruding to both sides in the middle portion of the outer surface. Is formed, there is provided an insertion hole 124, the middle portion is partitioned by the partition piece 123 so that the pipe body 110 can be connected to each other in both directions in the inner side, the pipe body inside the partition piece 123 A connection pipe 120 provided with a through hole 125 communicating with the 110 and having a cable bar 127 for seating a cable L wired on an inner surface of the through hole 125; The connection piece 111 inserted in one direction of the insertion hole 124 is fastened to one side of the connection pipe 120 so that the connection piece 111 can be closely connected without being separated from the insertion hole 124, and the protruding piece (1) 122 and a first mounting piece 132 having a first fastening hole 131 to which the screw rod 121 is inserted and fastened to the nut (N) is provided. A first through hole 133 having one end inserted therein is formed and a first through hole through which the tube 110 is inserted into the first side wall 134 constituting the first accommodation groove 133. A first fixing tube (130) provided with a plurality of first connecting rods (136) protruding from an outer surface of the first sidewall (134); The connection piece 111 inserted in the other direction of the insertion hole 124 is fastened to the other side of the connection pipe 120 so that the connection piece 111 can be closely connected without being separated from the insertion hole 124, and the protruding piece (1) 122 and a second mounting piece 142 having a second fastening hole 141 into which the screw rod 121 is inserted and fastened to the nut (N) is provided therein, and the connection pipe is formed inside. A second through hole in which the other end of the 120 is inserted is formed, and the tubular body 110 is inserted through the second side wall 144 forming the second receiving groove 143. A second fixing tube 140 having a plurality of second connecting rods 146 protruding from an angle of the first connecting rods 136 on the outer side surface of the second side wall 144; The connecting piece 111 and the connecting piece 111 so as to closely adhere to the partition piece 123 and at the same time to secure a space in which the connecting piece 111 can move through the shape deformation during internal expansion of the tubular body 110. 1 pair of first tubes inserted into and connected between the first receiving grooves 133 and between the connecting piece 111 and the second receiving grooves 143, respectively, and having an air inlet 151 for controlling the amount of air filled in one side. Ring body 150; The connection piece 111 is interposed therebetween so as to be firmly bound to the contact portion of the other end of the pipe 110 without the connection piece 111, the outer surface can be fixed to the connection with the first fixing tube 130 and the second fixing tube 140. The first contact rods 136 and the second connection rods 146 inserted in different directions so that the contact plate 163 is provided with a coupling hole 161 is inserted into the nut (N) is fastened, the inner side is the The connector 160 is inserted into communication with the tube 110 and the insertion pipe 167 having the curved portion 165 on the inner surface is provided to protrude in both directions and The air is filled inside to closely secure the space between the other end of the tubular body 110 and the contact plate 163 and to secure a space for the tubular body 110 to move through the shape deformation during internal expansion of the tubular body 110. Underground cable protective pipe, characterized in that it comprises a second tube ring body 170 is inserted and connected to the outer surface of the insertion pipe 167 protruding to both sides.

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