KR101039113B1 - Apparatus for laying underground line of transforming and distributing high-voltage cable - Google Patents

Abstract

PURPOSE: An apparatus for burying underground lines of transforming and distributing high voltages cables is provided to easily arrange the high voltage cables in a cable burying groove by moving a line burying part from one side to another side of the cable burying groove. CONSTITUTION: A line burying part is in connection with a high voltage cable(1). The line burying part moves along a cable burying groove and installs the high voltage cable under the ground. The line burying part is composed of a tip head, a plurality of expandable protecting pipes, a plurality of connecting rings, and a finishing duct. A blower(200) moves the line burying part based on air with the high pressure.

Description

Substation and distribution high voltage cable underground line buried device {APPARATUS FOR LAYING UNDERGROUND LINE OF TRANSFORMING AND DISTRIBUTING HIGH-VOLTAGE CABLE}

The present invention relates to a substation and distribution high voltage cable underground line laying device, and more particularly, to a substation and distribution high voltage cable underground line embedding device that can easily embed a high voltage cable in the ground.

In the past, electric wires and communication cables were installed in the air using power poles, but recently they are buried underground.

And as a method of embedding electric wires or communication cables in the ground, it is common to first bury the tube in the ground along the wiring path, and then install an electric wire or communication cable in the tube.

However, in practice, the installation of wires or communication cables in underground burial pipes is not easy, and when the length between the manholes and manholes in underground burial pipes is long, it is more difficult to install.

To further explain this, in the conventional method of installing an electric wire or a communication cable in the underground buried pipe, first, roll a vinyl, tie a string, etc., insert it into one hole of the underground pipe, and then pressurize the gas into the hole. By spraying a string to allow the string to be discharged through the other hole of the underground pipe, and then to tie the wire to be installed to the string, and then to pull the string again to use the wire to be installed in the underground pipe. Has been.

At this time, the wire or communication cable is pulled through the manpower or by using the force of the winch.

This prior art has to penetrate the underground pipe (hole) to connect a separate connection string (rope) for pulling the cable from one side to the other side, there is a disadvantage that is not realistic because this work is difficult.

The present invention is to solve the problems as described above, by installing only the operation of moving the high-voltage cable from one side of the cable buried groove to the other side substation and distribution high-voltage cable that can be easily installed in the underground cable buried groove The purpose is to provide underground track burial.

Substation and distribution high voltage cable underground line laying device according to the present invention for achieving the above object, the line buried portion is moved from one side to the other side of the cable laying groove is connected to the high voltage cable and both sides are connected to the ground; It is installed on one side of the cable embedding groove and includes a blower for blowing the high-pressure air to the line buried portion for forced transfer of the line buried portion from one side of the cable buried groove to the other side, the line buried portion, the high pressure on the inner surface A tip head to which an end of the cable is connected, a plurality of stretchable protective tubes and a plurality of connection rings alternately arranged in the rear of the tip head, and installed at the rearmost connection ring among the connection rings, and the blower of the blower is airtight. The finishing duct is connected to each other at a circumferential direction at a circumferential direction to the circumference of the end duct and the connection ring, which are arranged in the longitudinal direction, respectively, and supported by the tip head and the connection ring and according to the expansion and contraction of the flexible protective tube. Stretching guide that is variable in length, installed on the periphery of the expansion guide and the end of the cable The support rod is provided with a wheel for rolling along the inner wall surface of the tongue groove, the expansion guide is one side is fixed to the two connecting rings, each of which is connected to or connected to the tip head and the first, respectively provided with a guide hole; And a guide pin coupled to the second elastic bar and the guide hole of the first and second elastic bars to guide the expansion and contraction of the first and second elastic bars, wherein the supporting rod is an outer first of the first and second elastic bars. A first rod fixed to the elastic bar, a second rod formed with a smaller diameter than the first rod and inserted into the first rod, and having a wheel fixed to an end thereof, installed at a circumference of the first rod and the second rod, It characterized in that it comprises a coil spring for elastically supporting the wheel through the rod to the inner wall surface of the cable embedding groove.

According to the substation and distribution high voltage cable underground line embedding apparatus according to the present invention, the high voltage cable can be installed in the cable embedding groove by moving the line buried portion from one side of the cable embedding groove to the other side of the cable embedding groove compared to the conventional Insertion from one side to the other side eliminates the inconvenience of connecting, so the installation time is shortened and the installation is very easy.

1 is a perspective view of a line buried portion applied to the substation and distribution high voltage cable underground line embedding apparatus according to the present invention.
Figure 2 is a side view of the underground line laying device for substation and distribution high voltage cable according to the present invention.
Figure 3 is a perspective view of the expansion guide applied to the substation and distribution high voltage cable underground line laying apparatus according to the present invention.
Figure 4 is a front view of the support bar applied to the substation and distribution high voltage cable underground line laying apparatus according to the present invention.
5 is a state diagram of the operation of the underground line laying apparatus for substation and distribution high voltage cable according to the present invention.

As shown in Figures 1 and 2 and 5, the substation and distribution high voltage cable underground line embedding apparatus according to the present invention, the high voltage cable (1) is connected and moves along the cable embedding groove (2) of the underground high voltage cable The track embedding part 100 for installing (1) in the ground and the blower 200 for moving the track embedding part 100 from one side of the cable embedding groove 2 to the other side by the high pressure air.

The line embedding part 100 includes a tip head 10 having an end portion of the high voltage cable 1 connected to an inner surface thereof, and a plurality of stretchable protective tubes 20 alternately arranged at the rear of the tip head 10. A plurality of connection rings 30, the connection ring 30 is installed in the rearmost connection ring 30 is composed of a closing duct 40, the air outlet of the blower 200 is hermetically connected.

The tip head 10 is a ring shape having a through hole and a head body 11 having a coupling pipe 11a at an end of the circumference, and the other side thereof is coupled to the head body 11 through a hinge 12. The cover 15 is installed on the head body 11 so as to be lockable through the locker 13, and opens and closes the through hole of the head body 11. The cover 15 is provided with a cable fastener 14 to which the high pressure cable 1 is fixed to the inner surface. , The front end of the cover 15 is formed of a tip shoe 16 protruding conically.

The flexible protective tube 20 is a corrugated tube, the length of which is variable by external force, that is, when the buried device is not in use, the volume can be minimized and both ends of the front end head 10 and the connection ring 30 or the connection ring 30 Bolts or the like, respectively.

The connection ring 30 supports the stretchable protective tube 20 to be disposed at the center of the cable embedding groove 2.

When the expansion and contraction of the stretchable protective tube 20, there is no torsion and the elastic guide 50 is applied to support the stretchable protective tube (20).

The expansion guide 50 is arranged at a predetermined interval along the circumferential direction with respect to the periphery of the tip head 10 and the connection ring 30, respectively, arranged in the longitudinal direction, respectively, the tip head 10 and the connection ring 30 The length is variable according to the expansion and contraction of the stretchable protective tube 20, as shown in Figure 3, one side is connected to the leading head 10 and the connecting ring 30 or two connecting rings 30, respectively It is fixed and coupled to the guide holes 51a and 52a of the first and second elastic bars 51 and 52 and the first and second elastic bars 51 and 52 provided with guide holes 51a and 52a, respectively. It consists of a guide pin 53 for guiding the expansion and contraction of the two expansion bars (51, 52). That is, when the tip head 10 or the front connection ring 30 is advanced by pneumatic pressure, the first and second expansion bars 51 and 52 are stretched under the guidance of the guide pin 53.

In addition, the support rod 60 is applied to move along the cable embedding groove 2 in a state where components such as the tip head 10 are disposed at the center of the cable embedding groove 2.

The support rod 60 is preferably provided with a plurality of preferably four in the circumferential direction on the circumferential direction of the expansion guide 50, the wheel 61 is provided with a rolling movement along the inner wall surface of the cable embedding groove (2) at the end .

The support rod 60 is a first rod 62 fixed to the outer side of the first elastic bar 51 of the first and second elastic bars (51, 52) in consideration of the irregular inner wall surface of the cable embedding groove (2), The second rod 63 and the first and second rods 62 and 63 having a diameter smaller than the first rod 62 and inserted into the first rod 62 and having the wheels 61 fixed to the ends thereof. It is installed in the circumference portion and consists of a coil spring 64 that elastically supports the wheel 61 through the second rod 63 to the inner wall surface of the cable embedding groove (2).

The first rod 62 is fixed to the fixing bracket 65 spaced apart from the first elastic bar 51 so as not to interfere with the guide hole 51a and the guide pin 53 of the first elastic bar 51.

The closing duct 40 is coupled to the rearmost connection ring 30 to hermetically seal the stretchable protective tube 20, and is provided with a connection tube 41 into which a blower of the blower 200 is inserted.

The blower 200 is connected to the connecting pipe 41 of the finishing duct 40 and blows the high pressure air to advance the tip head 10 to expand and expand the flexible protective tube 20, thereby expanding the high pressure cable 1. Install in the cable buried groove (2). That is, the blower 200 is installed in one opening of the cable embedding groove 2 to move the track embedding portion 100 from one side of the cable embedding groove 2 to the other side, so that the connection cord or the like is compared with the conventional cable embedding groove. There is no inconvenience to be inserted from one side to the other side of (2).

The operation of the substation and distribution high voltage cable underground line laying apparatus according to the present invention is as follows.

As shown in FIG. 5, in order to embed the high voltage cable 1 in the ground, the cable embedding groove 2 is first excavated in the ground. The cable embedding groove 2 is formed with a working tool on each side.

In order to wire the high voltage cable 1 to the cable embedding groove 2, the line embedding part 100 and the blower 200 are installed in a work tool which is an opening of one side of the cable embedding groove 2.

At this time, the line buried portion 100 is installed in a state in which the flexible protective tube 20 is folded to a minimum, and fixes the high-voltage cable 1 to the cable fixing member 14 of the tip head 10. In order to easily fix the high voltage cable 1, the cover 15 is opened to connect the high voltage cable 1 from the outside. When the connection of the high voltage cable 1 is completed, close the cover 15 and lock the cover 15 through the locker 13.

The tip head 10 is inserted from one side of the cable embedding groove 2, and the blower 200 is connected to the connecting pipe 41 of the finishing duct 40 and then operated.

The high pressure air is blown by the blower 200, and the air advances the tip head 10 while hitting the inner wall of the tip head 10.

Due to the advancement of the tip head 10, the flexible protective tube 20 behind the tip head 10 is unfolded, and in this manner, the tip head 10 is moved from one side of the cable embedding groove 2 to the other side. Stretch protective tube 20 is to be spread. When the stretchable protective tube 20 is unfolded, the first and second stretched bars 51 and 52 of the stretchable guide 50 are stretched under the guidance of the guide pin 53 to guide the stretch of the stretchable protective tube 20. Protect the telescopic protective tube (20).

The wheel 61 of the support rod 60 during this movement rolls along the inner wall surface of the cable embedding groove 2 so that the flexible protective tube 20 is disposed at the center of the cable embedding groove 2, and the cable embedding groove ( Even if the inner wall surface of 2) is irregular, since the length is variable as the first and second rods 62 and 63 are stretched and contracted, the stretchable protective tube 20 is disposed at the center of the cable embedding groove 2.

When the tip head 10 is drawn out to the other work tool of the cable embedding groove 2, the high pressure cable 1 may be installed by pulling the tip head 10 from the work tool of the other side. That is, in this case, the high pressure cable 1 may be installed without operating the blower 200 or the blower 200.

1: high voltage cable 2: cable buried groove
10: tip head, 11: head body
15: cover, 20: flexible protective tube
30: connecting ring, 40: finishing duct
50: extension guide, 60: support rod
100: track buried part, 200: blower

Claims (2)

A line buried portion 100 connected to the high voltage cable 1 and moving from one side to the other side of the cable embedding groove 2 in which both sides communicate with the ground;
A blower 200 installed at one side of the cable embedding groove and forcibly conveying the line embedding portion from one side of the cable embedding groove to the other side by blowing high pressure air to the track embedding portion,
The line buried portion, the front end head 10 is connected to the end of the high-voltage cable on the inner surface, a plurality of stretchable protective tube 20 and a plurality of connection rings 30 are alternately arranged in the rear of the tip head. And, the finishing duct 40 is provided in the connecting ring of the rearmost of the connection ring is provided with a connecting pipe 41, the air outlet of the blower is hermetically connected, the circumferential direction between the front end of the head and the connection ring Arranged at regular intervals along the lengthwise direction, each of which is supported by the tip head and the connection ring and is provided with a stretchable guide 50 that is variable in length according to the stretch of the stretchable protective tube, and is installed at the periphery of the stretchable guide. Includes a support rod 60 is provided with a wheel 61 to move along the inner wall surface of the cable embedding groove,
The expansion guide is fixed to two connecting rings, one side of which is connected to or close to the tip head, respectively, the first and second elastic bars 51 and 52 provided with guide holes 51a and 52a, respectively, and the first, It is coupled to the guide hole of the 2 expansion bar and includes a guide pin 53 for guiding the expansion and contraction of the first and second expansion bar,
The support rod is formed of a first rod 62 fixed to an outer first elastic bar among the first and second elastic bars and a diameter smaller than that of the first rod, and the wheel is fixed to the end while being inserted into the first rod. A second rod (63), characterized in that it comprises a coil spring (64) installed on the periphery of the first and second rods to elastically support the wheel to the inner wall surface of the cable embedding groove through the second rod. Substation and distribution high voltage cable underground line laying device. According to claim 1, The tip head is a ring-shaped head body 11 with a through hole, while one side is coupled to the head body through a hinge 12, the other side is locked through the locker 13 to the head body It is installed so as to open and close the through hole of the head body and the inner surface is provided with a cable fixture for fixing the high-voltage cable, the front end of the cover is characterized by consisting of a tip shoe 16 formed protruding conically. Substation and distribution high voltage cable underground line laying device.

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