KR101596744B1 - Apparatus for protecting cable of underground transmission line - Google Patents

Abstract

The present invention relates to a cable protection tube for an underground transmission line. A conductor of both side underground transmission cables are electrically connected to each other through a conductive connection pipe and a vibration reduction spring when the both side underground transmission cables are connected. The both side underground transmission cables are doubly and safely protected by a vibration reduction insulating pipe, an insulation flange pipe, and external insulating protective pipe. The vibration reduction insulating pipe and the insulation flange pipe is coupled as a one-touch type by an elastic hook and hook-coupling hole so that the work is done quickly and simply. A connection area of the both side underground transmission cables is connected by the vibration reduction insulating pipe, a vibration reduction insulating tube, a vibration reduction spring, and external insulating protective pipe so that vibration, which is applied to the underground transmission cable, is absorbed and reduced, thereby preventing separation or connection error, a short circuit, and leakage of the connection area of the underground transmission cable.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an underground transmission line for an underground transmission line,

The present invention relates to a cable protection tube for an underground transmission line, and more particularly, to a structure for safely protecting a connection portion of an underground transmission line and a simple and easy connection of the underground transmission line, And to prevent a connection failure, a connection failure, a short circuit, and a short circuit of a connection part of an underground transmission line by absorbing and attenuating the same.

In general, in Korea, underground cable works were carried out in 1973 by installing an underground cable, which is complicatedly installed from Hyosajeong to Gwanghwamun in 1973, on the side of the main road on the side of the main road, and supplying nearby customers from the pillar transformer using low- And is continuously expanding.

In connecting the underground transmission line constituting the underground transmission line, as shown in FIG. 7, the insulating cover 3 is peeled from the end of the underground transmission line 1 by a predetermined length so that the conductor 2 is exposed, A method is widely used in which the conductor 2 is connected by a wire sleeve 4 and covered with the insulating protection pipe 5 between the ends of the insulating cloth 3 of the both side ground transmission line 1. [

The conductor 2 of each of the underground transmission lines 1 is inserted into both ends of the wire sleeve 4 formed by simply forming the steel plate into a cylindrical shape and the wire sleeve 4 is crimped And the conductor 2 of both the underground transmission lines 1 is connected through the wire sleeves 4 by tightening the insulation protection pipes 5 on the underground transmission line 1 by clamping the insulation protection pipes 5 on the underground transmission line 1, The vibration is directly transmitted to the connection portion by the wire sleeve 4, so that the connection portion is disconnected, connection failure, short-circuit and short-circuit are generated.

As a conventional prior art related to the above, a "structure for connecting a tree protection pipe of a wire" (hereinafter referred to as "Prior Art 1") registered in Korean Registered Utility Model No. 20-0045144 (registered on January 30, 1990) The compression joints are put on the outer circumferential surface of the electric wire, and the protective pipe is connected to both ends thereof from the center of the electric wire. Then, the interlocking protrusions are formed inside the divided connection cover so as to catch the engagement holes, And it is easy to assemble the compression joint, the protective pipe and the connection cover, thereby making the work efficient and practical.

However, the prior art 1 has a problem in that the connection of electric wires is equal to that of the prior art because of the use of a wire compression fitting (wire sleeve) as in the above-mentioned prior art.

Also, as a conventional leading gasol, Korean Patent No. 10-0897231 (Registered on May 5, 2009) "Prefabricated cable for underground burial in an architectural complex" (hereinafter referred to as Prior Art 2) is formed, The watertightness effect can be maximized and the watertightness effect can be maximized. Since the watertightness effect can be maximized and the watertightness effect can be maximized, it is possible to provide a uniform alignment of the wire protection tube or the protective cover It is possible to prevent the loss of wire protection tube and protective cover. It is possible to protect wires of various diameters by providing a wire protection tube with a charging tube that allows a large diameter wire to be inserted and a small wire tube which allows a small diameter wire to be inserted. And the like.

However, since the wires of the prior art 2 also use a wire squeeze (wire sleeve) as in the prior art, there is a problem in comparison with the prior art.

Therefore, it is required to develop a technique that does not cause disconnection of connection parts, connection failure, short circuit, and short circuit even if vibration is applied while smoothly connecting the ground transmission line.

Registered Utility Model No. 20-0045144 (Registered on Jan. 30, 1990) "Registration of the Plant Protection Structure for the Front" Korea Registered Patent No. 10-0897231 (registered on May 5, 2009)

Accordingly, it is an object of the present invention to provide a method and a device for safely protecting a connection portion of an underground transmission line, a connection of an underground transmission line is simplified and facilitated, and when vibration is applied to an underground transmission line, It is intended to provide a protection line for an underground transmission line to prevent dropout, connection failure, short circuit and short circuit.

According to an aspect of the present invention, there is provided an underground transmission line comprising: a sleeve connected to a conductor of an underground transmission line; a pair of left and right conductive connection ports symmetrically disposed with a guide flange integrally formed at one end of the sleeve; An outer flange integrally formed at both ends of the cylindrical portion, and a reinforcing steel plate embedded in the inside of the outer flange, wherein the flange has a cylindrical portion into which the guide flange of the pair of conductive connection ports is inserted; and; An outer flange integrally formed at one end of the coupling cylindrical portion and coupled to an outer flange associated with the vibration damping insulation, and an outer flange integrally formed with the coupling cylindrical portion and the outer flange, A pair of right and left insulation flange tubes of an electrically insulated material provided with a reinforcing steel plate embedded in the inside of the flange; A vibration damping insulation tube inserted in the vibration damping insulation connection and having both ends elastically brought into close contact with an inner surface of a guide flange of the pair of left and right conductive connection ports; A conductive vibration damping spring that is wound between the outer circumferential surface of the vibration damping insulation tube and the inner circumferential surface of the cylindrical portion of the pair of left and right conductive connection ports and has both ends thereof resiliently contacted with the inner surface of the guide flange of the pair of left and right conductive connection ports ; And an outer insulating protection tube of an electrically insulating material surrounding the vibration damper insulation connection and the insulation flange tube, wherein the inner surface of the guide flange of the conductive connection port is provided with a pair of concentric ring- Wherein a plurality of hook holes are formed in the outer flange and the reinforcing steel plate associated with the vibration damping insulation, and a plurality of hook heads are provided on the inner surface of the reinforcing steel plate of the insulation flange tube Wherein the coupling hook is integrally formed and inserted into the hook coupling hole of the insulation flange tube so that the hook head is hooked on the inner surface of the outer flange associated with the vibration damping loop, the vibration damping insulation tube comprising a cylindrical portion, And a cross-sectional plate integrally formed so as to close both ends, wherein both ends of the vibration- Wherein the outer insulation protection tube is inserted into a coupling groove formed on an inner surface of the guide flange of the conductive connection port so that mechanical connection between the conductive connection port and the vibration damping spring is robust and electrical connection is effected effectively, And a pair of left and right outer insulation protection half tubes surrounding the right half and left and right insulation flange tubes of the outer insulation protection half pipe and the inner ends thereof are coupled to each other. Wherein the reinforcing steel plate is embedded in the outer flange, and the outer insulating protection half pipe is provided with an inner engaging jaw which is engaged with the outer surface of the outer flange of the insulating flange tube, And an inner flange engaged with the outer end of the coupling cylinder of the insulation flange tube Property is outside of the outer insulating protective half-tube-side end portion, and provides a wire protection tube into the ground power line which is the conduit through holes in close contact with the insulating coating part of the underground transmission lines formed.

According to the present invention, the conductor of both the underground transmission lines is electrically connected to each other through the conductive connection pipe and the vibration damping spring in a state where the both sub-underground transmission lines are connected, and both the underground transmission lines are connected to the vibration- The insulation flange pipe and the insulation flange pipe are coupled by the elastic hook and the hook coupling hole in a one-touch manner, so that the work can be performed quickly and easily, and both the underground transmission lines Is connected by the vibration damping insulation connection, the vibration damping insulation tube, the vibration damping spring and the external insulation protection pipe so that the vibration applied to the underground transmission line is absorbed and attenuated and the connection part of the underground transmission line is disconnected, It is possible to prevent a short circuit.

1 to 6 show a preferred embodiment of a wire protection tube for an underground transmission line according to the present invention,
1 is an exploded perspective view of a cable protection tube of an underground transmission line,
2 is a perspective view of a cable protection tube of an underground transmission line,
3 to 6 are views showing a process of connecting an underground transmission line according to the present invention,
3 is a cross-sectional view showing a state in which a conductive connection port is connected to a conductor of both side underground transmission lines,
4 is a cross-sectional view showing a state in which a vibration-damping insulation tube and a vibration damping spring are in close contact with each other between both-
5 is a cross-sectional view showing a state where an insulation flange tube and a vibration-damping insulation tube are combined,
6 is a sectional view showing a state in which an outer insulating protection tube is covered,
7 is a cross-sectional view showing a connection structure of a conventional underground transmission line.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a wire protection tube of an underground transmission line according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description, the bolt or the through hole through which the screw passes and the screw hole into which the bolt or the screw is fastened are shown in the figure, but the reference numerals and explanations thereof are omitted.

Further, in the middle portion between the both side ground transmission lines 10

The cable protection tube of the underground transmission line according to the present embodiment connects the exposed conductor 11 at the ends of the both sides of the underground transmission line 10 and protects the connection site from vibration.

The underground transmission line 10 is prepared so that the conductor 11 is exposed by peeling the insulating sheath 12 at the end.

The electric line protecting tube of the underground transmission line according to the present embodiment includes a sleeve 110 connected to the conductor 11 of the underground transmission line 10 and a guide flange 120 integrally formed at one end of the sleeve 110 A pair of left and right conductive connection ports 100 arranged symmetrically; A cylindrical portion 210 into which the guide flange 120 of the pair of the conductive connection ports 100 is inserted, an outer flange 220 integrally formed at both ends of the cylindrical portion 210, and an outer flange 220 A vibrating attenuator 200 of an electrically insulating material provided with a reinforcing steel plate 230 embedded in the inside of the vibrating plate 200; A coupling cylindrical portion 310 which is in close contact with the insulation coating 12 of the underground transmission line 10 and the outer circumferential surface of the sleeve 110 and the coupling cylindrical portion 310 integrally formed at one end of the coupling cylindrical portion 310, An outer flange 320 coupled to the outer flange 220 of the inner flange 200 and a reinforcing steel plate 330 embedded in the inner flange 320 and the coupling cylindrical portion 310, A pair of insulating flange tubes (300); A vibration damping insulation tube (not shown) of an electrically insulated material inserted in the vibration damping insulation joint 200 and having both ends elastically brought into close contact with the inner surface of the guide flange 120 of the pair of left and right conductive connection ports 100 400); The vibrating damping insulation tube 400 is wrapped around the outer circumferential surface of the vibration damping insulation tube 400 and the inner circumferential surface of the cylindrical portion 210 of the pair of left and right conductive connection ports 100 and has both ends of the guide flanges 120 of the left and right conductive connection ports 100 , A conductive vibration damping spring (500) elastically contacting the inner surface of the base (500); And an external insulation protective pipe 600 of an electrically insulated material which surrounds the vibration damping insulation connection 200 and the insulation flange pipe 300.

The sleeve 110 of the conductive connection port 100 is tightly tightly connected to the conductor 11 of the ground transmission line 10 by being tightened by a crimping plier.

A pair of concentric ring-shaped coupling rings 121 and 122 having diameters different from each other are formed on the inner surface of the guide flange 120 of the conductive connection port 100, and coupling grooves 123 Is formed.

A plurality of hook holes 221 and 231 are formed in the outer flange 220 and the reinforcing steel plate 230 of the vibration damping insulation joint 200 and a plurality of hook holes 221 and 231 are formed in the outer flange 220 and the reinforcing steel plate 230, A coupling hook 340 having a plurality of hook heads 341 is integrally formed on an inner surface of the reinforcing steel plate 330 to form hook holes 221, 231 so that the hook head 341 is hooked on the inner surface of the outer flange 220 of the vibration damping insulation joint 200. [

The vibration damping insulation tube 400 is composed of a hollow hollow structure having a cylindrical portion 410 and a sectional plate 420 integrally formed to close both ends of the cylindrical portion 410.

It is preferable that the vibration damping spring 500 is closely attached to the inner surface of the guide flange 120 of the conductive line connection port 100 by using a compression coil spring.

Both ends of the vibration damping spring 500 are inserted into the coupling grooves 123 formed on the inner surface of the guide flange 120 of the conductive connection port 100 so that the mechanical connection between the conductive connection port 100 and the vibration damping spring 500 So that the electrical connection can be effectively performed.

The outer insulation protection pipe 600 includes a pair of left and right outer insulation protection half pipes (not shown) which surround the left half, right half, left and right insulation flange pipes 300 of the vibration damping insulation joint 200, 610 and 620, respectively.

Outer flanges 611 and 621 are formed at the inner ends of the outer insulation protection half pipes 610 and 620 so as to form an engagement bolt B1 passing through the outer flanges 611 and 621 and a nut N1 fastened thereto Lt; / RTI >

The reinforcing steel plates 612 and 622 are embedded in the outer flanges 611 and 621.

The outer insulation protection half pipes 610 and 620 are provided with inner engagement protrusions 613 and 623 which are hooked on the outer surface of the outer flange 320 of the insulation flange pipe 300, Inner flanges 614 and 624 are formed which are engaged with the outer end of the cylindrical portion 310. [

Conduction holes 615 and 625 are formed at the outer ends of the outer insulation protection half pipes 610 and 620 so as to be in close contact with the insulation cover 12 of the underground transmission line 10.

Hereinafter, a process of connecting and protecting the both sides of the ground transmission line 10 by the cable protection tube of the underground transmission line according to the present embodiment will be described.

In the first step, the sleeve 110 of the conductive connection port 100 is tightened by a crimping plier so that the sleeve 110 is mechanically and electrically connected while being in close contact with the outer circumferential surface of the conductor 11 of the underground transmission line 10 (See FIG. 3).

At this time, the left outer insulation protection half pipe 610 and the left insulation flange pipe 300 are pre-fitted to the left underground transmission line 10, and the right outer insulation protection half pipe 620 and the right insulation flange pipe 300 are connected to the right side It is pre-fitted to the underground transmission line 10. Although the vibration damping insulation connection 200 has been previously fitted in the right underground transmission line 10 in the illustrated example, it may be pre-fitted in the left underground transmission line 10.

In the second step, both ends of the vibration-damping insulation tube 400 and both ends of the vibration-damping spring 500 are elastically brought into close contact with the inner surface of the guide flange 120 of the conductive connection port 100 (see FIG. 4) .

At this time, both ends of the vibration damping spring 500 are press-fitted into the coupling grooves 123 between the pair of coupling rings 121 and 122 formed on the inner surface of the guide flange 120, The mechanical connection and the electrical connection of the spring 500 are effectively performed.

The insulator flange pipe 300 previously inserted in the underground power transmission line 10 is moved to the conductive line connection port 100 so that the inner surface of the outer flange 320 of the insulation flange pipe 300 is electrically connected to the conductive connection port 100 The elastic hooks 340 of the insulation flange pipe 300 are inserted into the hook engagement holes 221 and 231 of the vibration damping insulation joint 200, The vibration damping insulation 200 and the insulation flange pipe 300 are coupled with each other so that the hook head 341 is hooked on the inner surface of the outer flange 220 of the vibration damping insulation joint 200, To be coupled to the vibration damping connection 200 and the conductive connection port 100 (refer to FIG. 5).

In the fourth step, both outer insulation protection half pipes 610 and 620 constituting the outer insulation protection pipe 600 previously fitted in the underground transmission line 10 are moved in directions approaching each other, and the outer insulation protection half pipes 610 620 of the outer flange 611 and the outer flange 612 of the flange 611 and the outer flange 612 of the flange 611 and the outer flange 612 of the flange 611, , And the nut (N1) is fastened to the projecting end portion of the bolt (B1) so as to couple the outer insulating protection half pipes 610 and 620 to each other (refer to FIG. 6).

At this time, the inner engagement protrusions 613 and 623 of the outer insulation protection half pipes 610 and 620 are engaged with the outer surface of the outer flange 220 of the vibration damping insulation joint 200, and the inner flanges 614 and 624, The vibrating damping insulation 200 is caught by the outer end of the coupling cylindrical portion 310 of the vibration damping insulation joint 200 so that the vibration isolation damping insulation 200 is connected to the insulation flange tube 30 by the tightening force of the bolt B1 and the nut N1. Is tightly tightened.

As described above, in the state where the both side ground transmission line 10 is connected by the cable protection tube of the underground transmission line according to the present embodiment, the conductor 11 of the both side ground transmission line 10 is electrically connected to the conductive connection port 100, Side ground transmission line 10 are securely and doubly secured by the vibration damping insulation connection 200, the insulation flange pipe 300, and the external insulation protection pipe 600, respectively.

In addition, the vibration damping insulation joint 200 and the insulation flange pipe 300 are coupled by the elastic hook 340 and the hook coupling holes 221, 231 in a one-touch manner, so that the operation can be performed quickly and easily.

Since the connecting portions of the two underground transmission lines 10 are connected by the vibration damping insulation 200, the vibration damping insulation tube 400, the vibration damping spring 500 and the outer insulation protection pipe 600, The vibration can be absorbed and attenuated to prevent the connection portion of the underground power transmission line 10 from falling off, connection failure, short circuit and short circuit.

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 essential characteristics thereof. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as falling within the scope of the present invention.

10: Underground transmission line 11: Conductor
12: Insulation coating 100: Conductive connection port
121, 122: coupling ring 123: coupling groove
200: vibration damping connection 221, 231: hook coupling hole
300: Insulation flange tube 340: Elastic hook
341: Hook head 400: Vibration damped insulation tube
500: Vibration damping spring 600: External insulation protection pipe
613, 623: Inner locking jaws 614, 624: Inner flange

Claims (1)

A sleeve 110 connected to the conductor 11 of the underground power transmission line 10 and a pair of left and right conductive connection ports 100 arranged symmetrically with a guide flange 120 integrally formed at one end of the sleeve 110 )Wow; A cylindrical portion 210 into which the guide flange 120 of the pair of the conductive connection ports 100 is inserted, an outer flange 220 integrally formed at both ends of the cylindrical portion 210, and an outer flange 220 A vibrating attenuator 200 of an electrically insulating material provided with a reinforcing steel plate 230 embedded in the inside of the vibrating plate 200; A coupling cylindrical portion 310 which is in close contact with the insulation coating 12 of the underground transmission line 10 and the outer circumferential surface of the sleeve 110 and the coupling cylindrical portion 310 integrally formed at one end of the coupling cylindrical portion 310, An outer flange 320 coupled to the outer flange 220 of the inner flange 200 and a reinforcing steel plate 330 embedded in the inner flange 320 and the coupling cylindrical portion 310, A pair of insulating flange tubes (300); A vibration damping insulation tube (not shown) of an electrically insulated material inserted in the vibration damping insulation joint 200 and having both ends elastically brought into close contact with the inner surface of the guide flange 120 of the pair of left and right conductive connection ports 100 400); The vibrating damping insulation tube 400 is wrapped around the outer circumferential surface of the vibration damping insulation tube 400 and the inner circumferential surface of the cylindrical portion 210 of the pair of left and right conductive connection ports 100 and has both ends of the guide flanges 120 of the left and right conductive connection ports 100 , A conductive vibration damping spring (500) elastically contacting the inner surface of the base (500); And an external insulation protection pipe 600 of an electrically insulating material surrounding the vibration damping insulation connection 200 and the insulation flange pipe 300,
A pair of concentric ring-shaped coupling rings 121 and 122 having diameters different from each other are formed on the inner surface of the guide flange 120 of the conductive connection port 100, and coupling grooves 123 Is formed,
A plurality of hooking holes 221 and 231 are formed in the outer flange 220 and the reinforcing steel plate 230 of the vibration damping insulation joint 200,
A coupling hook 340 having a plurality of hook heads 341 is integrally formed on an inner surface of the reinforcing steel plate 330 of the insulation flange pipe 300 so that the hook coupling holes 221 of the insulation flange pipe 300 And 231 so that the hook head 341 is hooked on the inner surface of the outer flange 220 of the vibration damping insulation association 200,
The vibration damping insulation tube 400 is composed of a hollow hollow structure having a cylindrical portion 410 and a section plate 420 integrally formed so as to close both ends of the cylindrical portion 410,
Both ends of the vibration damping spring 500 are inserted into the coupling grooves 123 formed on the inner surface of the guide flange 120 of the conductive connection port 100 so that the mechanical connection between the conductive connection port 100 and the vibration damping spring 500 And the electrical connection is made effective,
The outer insulation protection pipe 600 includes a pair of left and right outer insulation protection half pipes (not shown) which surround the left half, right half, left and right insulation flange pipes 300 of the vibration damping insulation joint 200, 610 and 620. Outer flanges 611 and 621 are formed at the inner ends of the outer insulating protection half pipes 610 and 620 to form coupling bolts B1 passing through the outer flanges 611 and 621, Reinforced steel plates 612 and 622 are embedded in the outer flanges 611 and 621 and the outer insulation protection half pipes 610 and 620 are connected to the insulation flange pipe 300 Inner flanges 614 and 624 which are engaged with outer ends of the coupling cylindrical portion 310 of the insulation flange pipe 300 and inner flanges 614 and 624 which are engaged with outer flanges of the outer flange 320 of the insulation flange pipe 300, And the outer ends of the outer insulation protection half pipes 610 and 620 are attached to the insulation cover 12 of the underground transmission line 10 Cable protection tube for underground transmission line in which conduit holes (615, 625) are formed.

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