KR102007679B1 - Underground electric cable connector equipment of power distribution) - Google Patents

Abstract

The present invention provides connector facilities for underground wire connection of distribution lines comprising: a hole unit formed of concrete in the ground and having a hole formed therein; a case arranged in the hole unit and accommodating a distribution board main body; a connection unit connected with the distribution board main body and having one end protruding toward the outside of the case; a buoyant unit installed in the case; a support unit supporting a lower end of the case and a lower surface of the hole and supporting the case, which is lifted by buoyancy of the buoyant unit as the inside of the hole unit is filled with water, in multiple stages; a guide unit installed in the lower surface of the hole to be arranged in both side units of the case and rolling and supporting the both side units of the lifted case to guide a movement; a guide pipe installed in the ground through the lower surface of the hole; an underground wire arranged inside the guide pipe and protruding toward the hole unit to have an upper end connected with the connection unit; and a sealing unit sealing between an inner circumference of the guide pipe and the underground wire.

Description

Connector facility for underground wire connection of distribution line {UNDERGROUND ELECTRIC CABLE CONNECTOR EQUIPMENT OF POWER DISTRIBUTION}

The present invention relates to a connector facility for underground wire connection of a distribution line.

Typically, electricity used in homes, offices, and large factories is supplied with electricity through substations installed in each region.

Such substations are installed for the purpose of voltage or current modification and power distribution. And the power produced in the power plant is sent to the customer through the transmission line.

The substation is to be installed on the ground, in the case of such a substation is to transfer a high-voltage current bar high voltage wire is mostly exposed to the outside, the high-voltage wire exposed to the outside causes a short circuit and short circuit due to external interference It is easy to be used, and there are problems such as damaging the surrounding landscape due to the dizzyingly hypothesized high-voltage cable, so that the high-voltage cable is installed underground.

When laying high voltage cables in the ground, there are two main categories. One is to install underground tunnels in the ground and install the shelves inside the tunnel to secure underground distribution lines. The other method of installation is to embed a protective tube made of concrete or synthetic resin in the ground, and to place the underground distribution line inside the buried protective tube.

In both methods, underground distribution lines are installed in a space separated from external contact in the ground. In case of heavy rainfall or flooding, sudden rainwater may flow in and the inflow of water due to the damage of underground tunnels or protective pipes may be uneven. May occur. If the drainage of water introduced by the environment separated from the external contact is not made smoothly, the underground distribution line may come into contact with the water and, in severe cases, the underground distribution line may be submerged.

In such a case, a short circuit may occur due to contact between water and an electric wire, and a risk of electric shock may occur.

In addition, since underground distribution lines are located in underground tunnels, there is a problem that it is difficult to quickly extinguish a fire if a ground leakage line causes a short circuit or other reasons.

Conventionally, in order to solve this problem, the support body in which the distributor is accommodated is maintained in accordance with the water level by using a buoyancy body, but the guide or the support body itself is broken between the guides and the support body, which are lifted, repeatedly. There is a problem that water penetrates.

In addition, there is a problem in that even if a fire occurs due to the electrical short generated by the water penetrated in this way, it is not possible to extinguish the fire immediately therein.

Prior art related to the present invention is Korean Patent Registration No. 10-0857213 (2008.09.01).

An object of the present invention is to provide a connector facility for connecting underground cables of a distribution line that can elevate the elevating distributor as the wiring hole is filled with water, and also prevent damage of the guides guided by the elevating distributor.

In addition, the present invention is connected to the distribution line and the underground wire, the distribution of the underground wire and the distribution can be prevented from being damaged as the distributor is repeatedly lifted by repeatedly adjusting the length of the underground wire according to the lifting and lowering of the distributor It is another object to provide a connector arrangement for underground cable connection of a track.

The present invention is made of concrete in the ground, the hole portion is formed hole; A case disposed in the hole and accommodating a switchgear main body; A connection part connected to the switchboard main body, one end of which protrudes to the outside of the case; Buoyancy portion for lifting the case through buoyancy; A support part supporting a lower end of the case and a bottom surface of the hole to support the case being lifted by buoyancy of the buoyancy part in multiple stages as water is filled in the hole part; A guide part installed at a bottom surface of the hole to be disposed at both sides of the case and supporting the movement by rolling both sides of the case being elevated; A guide tube installed in the ground through the bottom of the hole; An underground wire disposed in the guide tube and protruding into the hole to have an upper end connected to the connection part; And an airtight portion for sealing between the inner circumference of the guide tube and the underground wire. It provides a connector facility for underground wire connection of the distribution line comprising a.

The connecting portion,

A through hole drilled in one side of the case,

A first connection member protruding from one side of the main switchboard body and disposed in the through hole;

A corrugated pipe connecting the inner circumference of the through hole and the outer circumference of the first connecting member;

A second connection member installed at an upper end of the underground wire and detachable from the first connection member;

It is formed in a hemispherical shape, the central portion is fixed to the second connecting member, the outer edge is provided with a protective cap of the elastic material is fitted into the fitting groove formed around the one side outer periphery of the case surrounding the through hole.

The upper end of the support is hinged to the lower end of the case.

The first connection member,

A first connection bar protruding from one side of the case;

A first connection end disposed in the through hole;

And a hinge end configured to hinge the end of the first connection bar and the first connection end to rotate the first connection end.

On the upper end of the guide tube, the auxiliary guide tube of the hollow shape is installed upright,

Hemispherical installation grooves are formed at a plurality of inner circumferences of the auxiliary guide tube,

Each of the installation grooves is provided with a rotation guide member, respectively

The underground wire,

It is guided in a zigzag shape through the rotation guide member of each of the installation grooves is exposed above the auxiliary guide tube.

In particular, the rotation guide member

A rotary hole for guiding the movement of the underground wire and having a rotating shaft formed therein;

It is provided in each of the installation grooves, and is provided with a multi-stage pipe that rotates and supports both ends of the rotary shaft and protrudes in multiple stages elastically.

In addition, the housing is made of a stainless steel housing that is accommodated in the main body of the switchgear,

Foam material is filled in the space between the housing and the inside of the case,

The outer surface of the case is coated with a stainless outer layer,

The flexible material tube is embedded in the foam material,

The tube is connected to an air injector and an air discharger,

The case is provided with a position sensor for measuring the lifting position,

The controller injects air into the inside of the tube through the air injector so that the measured lifting position reaches a position higher than the water level measured by the water level sensor installed in the hole, thereby forcibly lifting the case.

According to the above solution, the present invention can prevent the breakage of the guide for elevating and elevating the elevating distributor as the wiring hole is filled with water.

In addition, the present invention connects the distributor and the underground wire, it is possible to prevent the connection between the underground wire and the distributor is damaged as the distributor is repeatedly lifted by elastically adjusting the length of the underground wire according to the lifting and lowering of the distributor.

1 is a view showing a connector facility for underground wire connection of the distribution line of the present invention.
Figure 2 shows the operation of the connecting portion according to the invention.
3 is a view showing the configuration of an auxiliary guide tube according to the present invention.
4 is a view showing an example in which the case buoyancy lifting in accordance with the present invention.
5 is a view showing a state in which the case buoyancy lift according to the present invention.

DETAILED DESCRIPTION Embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and like reference numerals designate like elements throughout the specification. In addition, some embodiments of the invention will be described in detail with reference to exemplary drawings. In adding reference numerals to components of each drawing, the same components may have the same reference numerals as much as possible even though they are shown in different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description may be omitted.

Hereinafter, with reference to the accompanying drawings, it will be described a connector facility for underground wire connection of the distribution line according to the present invention.

1 is a view showing a connector facility for underground wire connection of the distribution line of the present invention.

Referring to FIG. 1, the present invention is made of concrete in the ground, and includes a hole part 100 in which a hole 101 is formed, disposed in the hole part 100, and a switchboard main body 10 accommodated therein ( 200, and the switch panel main body 10, one end of the connection portion 300 protruding to the outside of the case 200, and buoyancy portion 400 to elevate the case 200 through buoyancy (Fig. 4) And the case lifted by the buoyancy of the buoyancy unit 400 as water is filled in the hole part 100 by supporting the lower end of the case 200 and the bottom surface of the hole 101. Support portion 500 for supporting the multi-stage 200, and is installed on the bottom surface of the hole 101 to be disposed on both sides of the case 200, moving on both sides of the case 200 is elevated Guide portion 600 for guiding the guide pipe 400 is installed in the ground through the bottom surface of the hole 101 and the inner It is disposed inside the inner tube 700, the underground wire 800 protrudes into the hole part 100 and is connected to the connection part 300, and the inner circumference of the guide tube 700 and the underground wire 800. It is composed of an airtight portion 900 for sealing between.

2 is a view showing the operation of the connecting portion according to the present invention.

Referring to FIG. 2, the connection part 300 protrudes from one side of the main body 10 of the through hole 310 and the through hole 310 drilled on one side of the case 200, and is disposed in the through hole 310. A first connection member 320, a corrugated pipe 330 connecting the inner circumference of the through hole 310 and the outer circumference of the first connection member 320, and an upper end of the underground wire 800. The second connecting member 340 detachably attached to the first connecting member 320, and is formed in a hemispherical shape, the center portion is fixed to the second connecting member 340, the outer edge surrounding the through hole 310 It is provided with a protective cap 350 of an elastic material that is fitted into the fitting groove 11 is formed around the outer side of the case 200.

The upper end of the support part 500 is connected to the lower end of the case 200 and the hinge (H).

The first connection member 320 may include a first connection bar 321 protruding from one side of the case 100, a first connection end 322 disposed in the through hole 310, and the first connection member. It is provided with a hinge end 323 to hinge the end of the connection bar 321 and the first connection end 322 to rotate the first connection end 322.

3 is a view showing the configuration of the auxiliary guide tube according to the present invention.

1 and 3, an auxiliary guide tube 1000 of a hollow shape is installed upright on an upper end of the guide tube 700.

At the upper end of the auxiliary guide pipe 1000, a roller R for guiding the movement of the underground wire 800 is installed.

Hemispherical installation grooves 1100 are formed at a plurality of inner circumferences of the auxiliary guide tube 1000.

Each of the installation grooves 1100 is provided with a rotation guide member 1200.

The underground wire 800 is guided in a zigzag shape through the rotation guide member 1200 of each of the installation grooves 1100 and exposed above the auxiliary guide tube 1000.

Particularly, the rotation guide member 1200 guides the movement of the underground wire 800, and is installed in each of the rotation holes 1210 and the installation grooves 1100 in which the rotation shaft 1211 is formed, and the rotation shaft. A multi-stage pipe 1220 is rotatably supported at both ends of the 1211 and protrudes in multiple stages elastically.

The lower end of the multi-stage pipe 1220 is connected to the lower end of the installation hole 1100 through the rotation shaft 1230 is disposed rotatably.

The torsion spring 1240 is installed on the rotating shaft 1230 to guide the multi-stage pipe 1200 to return to its original position.

Figure 4 is a view showing an example of the buoyancy lifting the case according to the present invention, Figure 5 is a view showing a state in which the case buoyancy lifting according to the present invention.

The buoyancy unit 400 will be described.

4 and 5, an accommodating part 210 of a stainless material in which the switchboard main body 10 is accommodated is disposed in the case 200.

The foam member 220 is filled in the space between the accommodating part 210 and the inside of the case 200.

The outer surface of the case 210 is coated with a stainless outer layer 230.

Inside the foam member 220 is a tube 240 made of a flexible flexible material is embedded.

The tube 240 is connected to the air injector 250 and the air ejector 260.

The case 200 is provided with a position sensor 270 for measuring the lifting position.

The control unit 2000 may be configured to move the tube 240 through the air injector 250 so that the measured lifting position reaches a position higher than the water level measured by the water level sensor 280 installed in the hole part 100. Air is injected into the inside of the case 200 to force the buoyancy lift.

As a result, the elevating distributor can be elevated as the wiring hole is filled with water, and the damage of the guides guided by the elevating the distributor can be prevented, and the distributor and the underground cable are connected to each other. By adjusting the elasticity it is possible to prevent the connection area between the underground wire and the distributor as the distributor is repeatedly lifted.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto. All equivalent modifications or improvements made without departing from the spirit of the present invention should be included in the claims of the present invention.

100: hole
200: case
300: connection
400: buoyancy
500: support part
600: guide
700: guide
800: underground wire
900: confidential

Claims (3)

Hole part made of concrete in the ground, the hole is formed;
A case disposed in the hole and accommodating a switchgear main body;
A connection part connected to the switchboard main body, one end of which protrudes to the outside of the case;
Buoyancy portion for lifting the case through buoyancy;
A support part supporting a lower end of the case and a bottom surface of the hole to support the case being lifted by buoyancy of the buoyancy part in multiple stages as water is filled in the hole part;
A guide part installed at a bottom surface of the hole to be disposed at both sides of the case and supporting the movement by rolling both sides of the case being elevated;
A guide tube installed in the ground through the bottom of the hole;
An underground wire disposed in the guide tube and protruding into the hole to have an upper end connected to the connection part; And
An airtight portion for sealing between the inner circumference of the guide tube and the underground wire; Including,
The connection part may include a through hole drilled on one side of the case, a first connection member protruding from one side of the main body of the power distribution panel and disposed in the through hole, and connecting an inner circumference of the through hole and an outer circumference of the first connection member. A corrugated pipe, an upper end of the underground wire, a second connecting member detachable from the first connecting member, a hemispherical shape, a central portion thereof is fixed to the second connecting member, and an outer edge of the through hole It is provided with a protective cap made of an elastic material that is fitted into the fitting grooves formed around the outer side of the case enclosed,
The first connection member may include a first connection bar protruding from one side of the case, a first connection end disposed in the through hole, and a hinge connection between an end of the first connection bar and the first connection end. It is provided with a hinge end for rotating the connection end ,
On the upper end of the guide tube, a hollow auxiliary guide tube is installed upright,
Rollers for guiding the movement of underground wires are installed at the upper end of the auxiliary guide pipe,
Hemispherical installation grooves are formed at a plurality of inner circumferences of the auxiliary guide tube,
Each of the installation grooves is provided with a rotation guide member, respectively
The underground wire is guided in a zigzag shape through the rotation guide member of each of the installation grooves and exposed above the auxiliary guide pipe,
The rotation guide member,
To guide the movement of the underground wire, the rotary shaft is formed with a rotary shaft, and provided in each of the installation grooves, and provided with a multi-stage pipe protruding elastically multi-stage and supporting both ends of the rotary shaft,
The lower end of the multi-stage pipe is connected to the lower end of each of the installation holes through the rotating shaft is disposed rotatably,
A torsion spring is installed on the rotating shaft and the connector for underground wire connection of the distribution line for elastically guiding the multi-stage pipe to return to its original position . The method of claim 1,
The buoyancy unit,
It is disposed inside the case, the housing portion made of stainless steel that the main body of the switchgear and;
Foam material filled in the space between the housing and the inside of the case,
An outer layer of stainless material coated on an outer surface of the case,
Buried in the foam material, the flexible tube flexible material,
An air injector and an air discharger connected to the tube;
A position sensor installed in the case and measuring a lifting position of the case;
Including a control unit,
The control unit injects air into the inside of the tube through the air injector so that the measured lifting position reaches a position higher than the water level measured by the water level sensor installed in the hole, the distribution line for forced buoyancy lifting Installation of connector for underground wire connection. delete

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