KR100654166B1 - Structure for producting cable buried in underground - Google Patents

Abstract

A structure for protecting a cable buried in underground is provided to enhance stability by burying an underground power line such as an electric wire or communication wire in underground. In a structure for protecting a cable buried in underground, a first subsidence preventing device(100) has a rectangular pipe tube(110) and a frame unit(120) at one side surface of the rectangular pipe tube(110), and is installed on weak ground in which an underground power line is buried. A middle box body(200) has a hexahedral box shape with both sides opened, and is fixed to the first subsidence preventing device(100) by a bolt(700). A second subsidence preventing device(300) is composed of a plurality of circular pipes(310) and a rectangular fixing board(320), and is integrally fixed to the middle box body(200) by the bolt(700). A supporting rod(600) is mounted on a first screw groove(212) formed on the top surfaces of protruding poles(210) on both side surfaces of the middle box body(200) in a perpendicular direction. An upper board(400) is composed of a main body(410), a wing unit(420), and a second screw groove(412). A guide plate(500) is composed of a supporting pole(510) and a square board(520) and the supporting pole(510) is screw-coupled to a third screw groove(414) formed at the center of the main body(410) of the upper board(400).

Description

Underground electrical cable protector structure in building complex {STRUCTURE FOR PRODUCTING CABLE BURIED IN UNDERGROUND}

1 is a view schematically showing the buried form of the underground line buried in the general ground.

Figure 2 is an exploded perspective view schematically showing the structure of the underground electric cable protection plate in the building complex according to the present invention.

3 is a perspective view schematically showing the structure of the underground electric cable shielding plate in the building complex according to the present invention.

Figure 4 is a cross-sectional view schematically showing the structure of the underground electric cable protection plate in the building complex according to the present invention.

5 is a cross-sectional view schematically showing a state in which the underground electric cable protection plate structure is installed in the building complex according to the present invention.

6 is a view schematically illustrating a state in which a plurality of underground electric cable protection plate structure in a building complex according to the present invention is continuously installed in the ground.

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

100: first settlement prevention 200: intermediate box body

210: protrusion pillar 300: second subsidence prevention

310: round pipe 320: square fixing plate

400: upper plate 500: guide plate

600: support rod 700: bolt

800: underground line

The present invention relates to a structure for preventing partial subsidence in an area where underground lines are embedded in a building complex. More specifically, the ground subsides due to a factor from which an electric line or a communication line embedded in the ground is applied from the outside, such as an electric line or a communication line. The present invention relates to a structure of an underground electric cable shield in a building complex to prevent underground lines from being damaged.

In recent years, a cable can be installed to transmit multiple signals or power at the same time. Although the cable is installed through a pylon or telephone pole, the cable is buried in the ground so that a signal or power can be transmitted from one place to another. have.

As underground lines installed underground, conduits, gas pipes, water and sewage pipes, etc., in which transmission and distribution wires are housed, are buried. The underground line is buried under ground due to safety and thermal insulation, and the underground line embedded in the ground for a long time should be repaired after a certain time due to corrosion due to breakage and infiltration water caused by its own aging.

1 is a view schematically showing the buried form of the underground line buried in the general ground.

Referring to FIG. 1, the underground line 10 embedded in the underground is installed with the protective plate 20 on the bottom first, and then installs the underground line 10 on the upper surface of the protective plate 20. do. After the underground line 10 is installed on the upper surface of the protective plate 20, the underground line 10 is embedded by compacting by using earth and sand on the underground line 10.

In the case of the underground line 10 installed as described above, the underground line 10 may be damaged due to deterioration and corrosion, or may be damaged in the process of repairing for additional reasons such as the expansion of the underground line 10.

In addition, the soil which is excavated to a certain depth in order to bury the underground line 10 is often passed through the fill and soft soil, and also the work is made in a constant way so that the drainage is smoothly mixed with gravel depending on the region This difficult case is a lot of reality. The process of the underground line is buried in the process of re-momenting mostly using the soil that is destroyed.

If a certain area where underground tracks are buried is collapsed or slumped in the soft ground due to heavy rain, the underground tracks are exposed and broken. Therefore, reinforcement of the buried soil is required.

The present invention has been made in order to solve the above problems, an object of the present invention is to provide a building complex that prevents the ground from being settled and damaged by factors applied from the outside of the electric line or communication line embedded in the ground To provide underground electrical cable shroud structure.

In order to achieve the above object, the present invention is installed in a soft ground on which underground lines are installed, made of a square pipe tube having a predetermined length having a rectangular cross section, and extending in a vertical direction on one side of the square pipe tube. A first settlement prevention member having a predetermined width portion; An intermediate box body having a box shape of an open hexahedron on both sides thereof, and fixed to the first settlement preventer by a bolt while one side is in close contact with an edge portion of the first settlement protector; Composed of a plurality of circular pipes inserted into the inner space of the intermediate box body and the square pipe tube of the first settlement stopper and the square fixing plate material fixed to the circular pipes integrally coupled to the intermediate position of the circular pipes, A second settlement prevention device fixed to the intermediate box body by a bolt while the square fixing plate material is in close contact with the other side; Support rods respectively installed in a vertical direction in a first screw groove formed on an upper surface of a protruding pillar provided on both side surfaces of the intermediate box body; The bottom part has a rectangular flat plate shape, and the top part is composed of a main body that protrudes convexly from both long axis surfaces of the bottom part, and wings formed while extending upwardly at an angle from both long axis surfaces of the main body. An upper plate member having a second screw groove in which a support rod is screwed on both sides thereof at a bottom of the body; In addition, the construction site consists of a support plate and a square plate installed at one end of the support column, and a construction plate consisting of a guide plate in which a support column is screwed into a third screw groove formed at the center of the upper surface of the main body constituting the upper plate. Provides an electrical cable shield structure.

The protruding pillars provided on both sides of the intermediate box body are elongated in the vertical direction, and a first screw groove is formed on the upper surface of the protruding pillar at a predetermined depth, and the second screw provided on the bottom surface of the first screw groove and the upper plate member. The support rod coupled to the groove at both ends is formed in the same direction as the threads at both ends. When the support rod is rotated in one direction, both ends are coupled to the first screw groove and the second screw groove at the same time. It provides a underground electrical cable shield plate structure in the building complex characterized in that both ends of the support rod is separated from the first screw groove and the second screw groove at the same time.

Four corners of the edge portion constituting the first anti-settling protection device is provided with a bolt hole, and four corners of the square fixing plate material constituting the second anti-settling protection device are provided with bolt holes, and the first and second anti-settling protection device The four grooves of the intermediate box body that is in close contact with the bolt groove is provided with the bolt is coupled to the bolt hole and the bolt groove, the building complex characterized in that the first settle prevention device, the intermediate box body and the second settling prevention device are integrally combined. Provide underground underground electrical cable shield.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

Figure 2 is an exploded perspective view schematically showing the structure of the underground electric cable shield in the building complex according to the present invention, Figure 3 is a perspective view schematically showing the structure of the underground electric cable shield in the building complex according to the invention, Figure 4 Figure 5 is a cross-sectional view schematically showing the structure of the underground electric cable shield plate in the building complex according to the invention, Figure 5 is a schematic cross-sectional view showing a state in which the underground electric cable shield plate structure is installed in the building complex according to the present invention, Figure 6 It is a schematic diagram showing a state in which a plurality of underground electric cable protection plate structure in a building complex is continuously installed in the ground.

First, underground lines such as electric lines and communication lines are buried at a certain depth. When the underground line 800 passes through the soft ground, a partial breakage occurs. In the soft ground where the underground line 800 is installed, the underground line 800 should be protected from an impact applied from the outside. In the soft ground, the first settlement prevention device 100 formed of the square pipe pipe 110 and the edge portion 120 is installed at the position where the underground line 800 is installed.

The square pipe tube 110 constituting the first anti-sink 100 has a predetermined width and length while having a rectangular cross section, and extends in a vertical direction on one side of the square pipe tube 110. A rectangular border portion 120 of width is formed. Bolt holes 710 are respectively provided at four corners of the edge portion 120 constituting the first anti-sink 100.

An intermediate box body 200 having a shape of a hexahedron having both sides opened is installed at the edge portion 120 constituting the first subsidence prevention device 100.

The intermediate box body 200 is fixed to the edge portion 120 of the first settlement prevention sphere 100 by the bolt 700 while one side is in close contact with the edge portion 120 of the first settlement prevention mechanism 100. do. A bolt groove 720 is provided at four corners on one side of the intermediate box body 200 which is in close contact with the edge portion 120 of the first anti-seizure stopper 100.

As the bolt 700 is coupled through the bolt hole 710 of the edge portion 120, the bolt 700 is coupled to the bolt groove 720 of the intermediate box body 200 so that the intermediate box body 200 is firstly formed. It is fixed to the edge portion 120 of the anti-sedimentation mouth (100).

On the other side of the intermediate box body 200, the second anti-sedimentation port 300 is coupled. The second anti-seizure preventer 300 is a plurality of circular pipes 310 and the circular pipes inserted into the inner space of the intermediate box body 200 and the square pipe tube 110 of the first anti-sedimentation stopper 100 ( It is made of a square fixing plate 320 is coupled to the intermediate position of the 310 to secure the circular pipe 310 integrally.

The circular pipe 310 based on the square fixing plate 320 is formed so that the portion inserted into the first anti-seizure 100 is longer than the opposite side.

Bolt holes 710 are formed at four corners of the square fixing plate member 320 constituting the second subsidence prevention member 300, and the square fixing plate member 320 closely adheres to the other side of the intermediate box body 200. do. Four corners of the intermediate box body 200 is provided with a bolt groove 720, the bolt 700 coupled through the bolt hole 710 of the square fixing plate 320 is the bolt of the intermediate box body 200 By being coupled to the groove 720, the second settlement prevention hole 300 is integrally fixed to the intermediate box body (200).

One side portion of the circular pipe 310 constituting the second anti-seizure preventer 300 is inserted into the first anti-sedimentation preventer 100 and the intermediate box body 200, the inside of the circular pipe 310 Underground line 800 is laid. Since the plurality of circular pipes 310 are provided, the different underground lines 800 may be classified and installed in different circular pipes 310.

Protruding pillars 210 are formed in the vertical direction on both side surfaces of the intermediate box 200 that are not opened. First screw grooves 212 are formed on the upper surface of the protruding pillar 210 that extends in the vertical direction at both sides of the intermediate box body 200 in a vertical direction, and the first screw grooves 212 are respectively formed in the first screw grooves 212. Support rods 600 having a predetermined length and threaded at both ends are installed in the vertical direction, respectively.

Since the support rod 600 is installed in the vertical direction from both sides of the intermediate box body 200, the upper end of the support rod 600 is a position of the upper spaced apart a certain distance from the intermediate box body (200).

The first subsidence prevention apparatus 100, the intermediate box body 200 and the second subsidence prevention apparatus 300 are mutually coupled and the earth and sand are covered thereon in a state installed in the ground, the first subsidence prevention apparatus 100 ) And the upper plate 400 is installed on the ground of the soil covered with the intermediate box body 200 and the second anti-sedimentation port 300.

The upper plate 400 has a main plate 410 having a bottom flat portion having a rectangular flat plate shape and a top portion protruding convexly from both long axis surfaces of the bottom portion, and a constant from both long axis surfaces of the main body 410. It consists of a plate-shaped wing portion 420 formed to extend upward at an angle.

The main body 410 constituting the upper plate 400 is provided with a second screw groove 412 in the middle position and a third screw groove 414 in the middle position of the second screw groove 412. The upper ends of the support rods 600 are screwed to the two second screw grooves 412 provided on the bottom surface of the main body 410, respectively.

The upper plate 400 is supported by the support rod 600 by being coupled to the support rod 600 is fixed from the first anti-sedimentation block 100, the intermediate box body 200 and the second subsidence prevention 300 Installed in the upper position spaced apart.

The guide plate 500 is installed in the third screw groove 414 provided at the center of the upper surface of the main body 410 constituting the upper plate member 400. The guide plate 500 is composed of a support pillar 510 and a square plate 520 which is installed at one end of the support pillar 510, and the type of underground line 800 embedded in the square plate 520. It will be described.

Since a screw thread is formed at the lower end of the support pillar 510, the support pillar 510 is installed perpendicular to the upper surface of the upper plate 400 while being screwed to the third screw groove 414. After installing the upper plate member 400 on the upper surface of the intermediate box body 200 together with the support rod 600, the first subsidence prevention device 100, the intermediate box body 200 and the second subsidence prevention device 300 Soil is filled between the top of the upper plate and the upper plate 400, because the guide plate 500 is installed on the upper portion of the upper plate 400 can manage the underground line 800 safely.

Underground line 310 through the circular pipe 310 constituting the second anti-seizure preventer 300 in a state in which the first anti-sedimentation preventer 100, the intermediate box body 200 and the second subsidence prevention unit 300 is integrally coupled Since the furnace is installed, the underground line is secured even when the ground on which the first settling stopper 100, the intermediate box body 200, the second settling stopper 300 and the upper plate member 400 are partially settled.

As can be seen from the above description, the present invention is effective in safety and the like by laying underground lines such as electric lines and communication lines in the ground of a certain depth.

When the underground line is installed in the soft ground, the ground is subsided due to the impact or pressure applied from the outside, which causes the underground line to be damaged. Therefore, a partial settlement prevention facility is installed to prevent this. In order to protect the cable of the circular pipe partially installed in the cable, the circular pipe is to be protected using the first anti-settler and the intermediate box body, by installing a guide plate while installing the upper plate on the ground on the soft ground Even if settlement occurs, the underground line will be protected safely.

Claims (2)

Underground line 800 is installed on the soft ground to be installed, made of a square pipe tube 110 having a predetermined length having a cross-sectional rectangular shape, and extends in a vertical direction on one side of the square pipe tube 110 A first settlement prevention tool 100 having a predetermined width rim portion 120 formed therein; An intermediate box that has a box shape of open hexahedron on both sides, and is fixed to the first settling stopper 100 by a bolt 700 while one side is in close contact with the edge portion 120 of the first settling stopper 100. Sieve 200; The circular pipe is coupled to the intermediate space of the plurality of circular pipes 310 and the circular pipes 310 inserted into the inner space of the intermediate box body 200 and the square pipe tube 110 of the first anti-sink 100. It is made of a square fixing plate 320 for fixing the integrally 310, the square fixing plate 320 is in close contact with the other side of the intermediate box body 200 to the intermediate box body 200 by the bolt 700 A second anti-sedimentation fixture 300 which is fixed integrally; Support rods 600 which are respectively installed in the vertical direction in the first screw groove 212 formed on the upper surface of the protruding pillar 210 provided on both side surfaces of the intermediate box body 200; The bottom portion has a rectangular flat plate shape, and the top portion has a main body 410 that protrudes convexly from both long side surfaces of the bottom portion, and is formed while being extended upward at a predetermined angle from both long side surfaces of the main body 410. An upper plate member 400 having a wing portion 420 and having a second screw groove 412 on which both sides of the support rod 600 are screwed on the bottom surface of the main body 410; And a third screw formed of a support pillar 510 and a square plate member 520 installed at one end of the support pillar 510 and formed at the center of the upper surface of the main body 410 constituting the upper plate member 400. Underground electrical cable shield plate structure consisting of a guide plate 500 is screwed to the support pillar 510 in the groove 414. The method of claim 1, Protruding pillars 210 provided on both sides of the intermediate box body 200 are formed long in the vertical direction, the first screw groove 212 is formed on the upper surface of the protruding pillar 210 to a predetermined depth, the first screw groove Both ends of the support rod 600 coupled to the second screw groove 412 provided at the bottom of the upper plate member 212 and the upper plate 400 are formed in the same direction as the threads are supported in the support rod 600. When rotated in one direction, both ends are coupled to the first screw groove 212 and the second screw groove 412 at the same time, when rotated in the opposite direction is supported from the first screw groove 212 and the second screw groove 412 Both ends of the rod 600 are separated at the same time, In addition, four corners of the edge portion 120 constituting the first anti-seizure 100 is provided with a bolt hole 710, four of the square fixing plate member 320 constituting the second anti-sedimentation 300 Bolt holes 710 are also provided at the corners, and bolt grooves 720 are also provided at four corners of the intermediate box body 200 which is in close contact with the first and second anti-sedimentation preventers 100 and 300. The 700 is coupled to the bolt hole 710 and the bolt groove 720, characterized in that the first settling prevention device 100, the intermediate box body 200 and the second settling prevention device 300 is integrally coupled. Underground electrical cable shield structure in the construction complex.

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