KR101885834B1 - Lead-in and lead-out cable connector for underground power line - Google Patents

Abstract

The present invention relates to a service and outgoing line connection structure of an underground buried power line. The service and outgoing line connection structure can divide an inner space of an underground pipe into an upper space where a service line is located and a lower space where an outgoing line is located, separate a service line and an outgoing line without cutting a connection bar connecting a service line and an outgoing line in case of fire, spray a fire extinguishing gas into a cabinet in which a power apparatus is installed and cut a service line and an outgoing line in case of fire, prevent spread of fire by spraying a fire extinguishing gas into a lower space of an underground pipe in conjunction with interruption operation of a service line and an outgoing line, and prevent unnecessary poor contact or power outage since a connecting bar is arbitrary cut by vibration or shock generated in the ground.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lead-in and lead-out cable connector for an underground power line,

More particularly, the inner space of an underground pipeline is divided into an upper space where a lead line is located and a lower space where a lead line is located, In the event of a fire, it is possible to separate the incoming line and the outgoing line without disconnecting the connecting line connecting the incoming line and the outgoing line. In case of fire, the fire extinguishing gas is injected into the cabinet equipped with the electric power equipment and the incoming line and outgoing line are blocked, It is possible to prevent the spread of fire by injecting fire extinguishing gas in the lower space of the underground pipe in conjunction with the cut-off operation of the outgoing line, and unnecessary contact failure or power outage occurs due to disconnection of the connecting rod by vibration or impact generated in the ground To the connection structure of the incoming and outgoing underground type ground wire to prevent the ground The.

A distribution line is a distribution line that is installed at a certain distance on the ground and has a plurality of distribution lines through which a distribution line is installed through a bridge and an insulator, and an underground distribution line where a plurality of distribution lines are embedded in an underground- Respectively.

However, there are problems in the appearance of the aesthetics of the city, as well as interference between the distribution lines and roadside trees, and bird nests such as magpies, resulting in contact failure, short circuit and power failure And the like.

Underground distribution lines have the advantage of being able to solve the problems with processing distribution lines, but they are buried in the ground, so that it is difficult to take immediate action when a fire occurs.

On the other hand, in recent years, people who are dissatisfied with the society often fire at national facilities or public facilities. Especially when a fire occurs in a power device such as a circuit breaker installed on the ground or a ground transformer, There is a problem that it becomes more difficult.

As a prior art to solve such a problem, Korean Patent No. 10-0875747 (Registered on Dec. 17, 2008) entitled " Incoming-out connection structure of underground buried underground wires "is known.

In the prior art, a fire extinguishing mechanism is installed in the case of the switchgear, and a connecting rod which is installed in the underground pipe and connects the power supply line of the power distribution board and the external power supply line is cutably installed. , It cuts the connecting block by the blocking means and cuts off the upper and lower parts of the underground pipe to cut off the power supply line and external power supply line of the power distribution panel and injects the fire powder into the lower side of the underground pipe, And the like.

However, in the above-mentioned prior art, the connecting rod connecting the power supply line of the power distribution board and the external power supply line must be installed so as to be cut by the impact of the blocking means. In this case, There is a problem that a contact failure due to unnecessary cutting or a power failure may occur.

Therefore, it is possible to separate the power supply line from the power supply line and the external power supply line without disconnecting the connection line in the event of a fire, block the underground piping into the upper space and the lower space and spray the fire extinguishing agent in the lower space, It is also required to develop a technique for preventing the occurrence of unnecessary contact failure or power failure due to the disconnection of the connecting rod due to vibrations or shocks generated in the ground.

Korean Registered Patent No. 10-0875747 (Registered on Dec. 17, 2008) "Incoming-out connection structure of submerged underground cable"

Accordingly, it is an object of the present invention to provide a power supply apparatus and a power supply apparatus capable of shutting off a lead-in line and a lead-out line without physically cutting a connecting line connecting a lead line and a lead line, And to provide an inlet-outlet connection structure of an underground buried underground wire which prevents the diffusion of the fire-extinguishing agent by injecting a fire-extinguishing gas into the underground pipe, and prevents a contact failure or a power failure due to arbitrary cutting of the connecting rod.

According to an aspect of the present invention, there is provided a power supply apparatus comprising: a power device installed inside a cabinet installed on the ground; An underground pipe embedded in a lower portion of the cabinet; A lead-in line drawn into the underground pipe from the power device; A lead wire installed at a lower portion of the lead line inside the underground pipe; Wherein the insulated wire is installed in a state where the insulation coating is peeled from the lower end to expose the conductor portion and the insulation coating is peeled off from the upper end of the insulated wire, And an upper space disposed inside the underground pipe and positioned in a state where the conductor is exposed at the lower end of the lead line, and a lower space located in a state where the conductor is exposed at the upper end An insulating partition plate partitioning the upper end of the lead wire into a lower space; A casing installed outside the underground pipe; A connection block formed between the conductor portion of the lead line and the conductor portion of the lead line and having a C-shaped opening at one side and a curved guide portion formed at the opening portion; A solenoid installed in the casing and having a working rod penetrating the side wall of the underground pipe and protruding into the upper space and having a distal end coupled to the connecting rod through an insulating connection; A fire extinguishing gas injection valve installed at the lower end of the fire extinguishing gas tank, and a fire extinguishing gas injection valve connected to the extinguishing gas tank through the fire extinguishing gas injection valve A power device evolving means including a fire extinguishing gas injection nozzle; A fire extinguishing gas discharge pipe connected to a lower end of the fire extinguishing gas tank; and a fire extinguishing gas discharging pipe extending through a side wall of the underground pipe and protruding from a lower space An exhaust gas injection valve provided between the extinguishing gas injection pipe and the extinguishing gas injection nozzle and provided with an opening and closing handle lever and an interlocking lever connecting an operating rod of the solenoid and an opening and closing handle lever, Evolution means; A control unit for outputting a control command for opening and closing the solenoid and the fire extinguishing gas injection valve in accordance with a detection signal of the fire detection sensor; and a control unit for controlling the solenoid And a valve driving unit for sending a driving signal to the extinguishing gas injection valve in accordance with a control command of the control unit. Out connection structure.

According to the present invention, the inner space of the underground pipeline is divided into an upper space where the lead line is located and a lower space where the lead line is located, and a connecting rod connecting the lead line and the lead line when a fire occurs It is possible to separate the lead-in line and the lead-line without cutting. In case of fire, the fire-extinguishing gas is injected into the cabinet where the electric power equipment is installed and cut off the incoming line and the outgoing line. In conjunction with the interrupting operation of the incoming line and the outgoing line, It is possible to prevent the spread of fire by spraying fire extinguishing gas in the lower space and to prevent unnecessary contact failure or blackout due to disconnection of the connecting rod due to vibrations or shocks generated in the ground.

1 to 4 show a preferred embodiment of a connection structure for an inlet and an outlet of an underground buried underground wire according to the present invention,
1 is an exploded perspective view of a lead-in / lead connection structure of an underground buried underground wire according to the present embodiment,
2 is a longitudinal front view showing a state in which a lead line and a lead line are connected,
Fig. 3 is a longitudinal front view showing a state in which a lead-in wire and a lead wire are cut off and a fire extinguishing gas is injected,
4 is a functional block diagram showing the control means.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings.

FIGS. 1 to 4 show a preferred embodiment of a connection structure for an inlet and an outlet of an underground buried underground wire according to the present invention.

As shown in FIG. 1 to FIG. 4, an inlet-outlet connection structure of an underground-type ground wire according to the present embodiment includes an electric power device 20 installed inside a cabinet 10 installed on the ground; An underground pipe (30) embedded in a lower portion of the cabinet (10); A lead-in line (40) leading into the inside of the underground pipe (30) from the power device (20); An outgoing line (50) provided at the lower portion of the lead line (40) inside the underground pipe (30); And provides a structure for connecting the lead line (40) and the lead line (50).

The cabinet 10 is installed on the ground and a door is provided on the front surface of the cabinet 10. The power device 20 may be a ground transformer or a circuit breaker.

The underground pipe 30 may be constructed of a conventional concrete structure or may be constructed of a synthetic resin having electrical insulation.

The submerged pipe 30 has a rectangular cross-section in the drawing, but may be formed in a circular cross-section.

The insulated wire is peeled off at the lower end to expose the conductor portion 41. The lead wire 50 is peeled off at the upper end and the conductor portion 51 is exposed do.

An insulating partition plate 100 is disposed inside the underground pipe 30 and divides an internal space into an upper space 31 in which the lead line 40 is located and a lower space 32 in which the lead line 50 is located Respectively.

The insulating partition plate 100 is made of a material having electrical insulation and flame-retardant property by dividing the upper space 31 and the lower space 32 in a completely hermetic state.

The insulating partition plate 100 is made of a material having electric insulation and flame retardancy. The insulating partition plate 100 may be fixedly supported on the inner circumferential surface of the underground pipe 30 by brackets, bolts / nuts, or the like.

A casing (200) is installed outside the underground pipe (30). The casing 200 may be made of a metal material or a synthetic resin material having electrical insulation.

The casing 200 may be configured as a cabinet that can be opened and closed by a door so as to install and maintain various components installed therein.

The lead line 40 is suspended in the upper space 31. The lead line 50 has an upper end fixedly supported through the insulating partition plate 100 and an upper end conductor 51 And is installed in the upper space 31.

A connecting rod 300 is provided between the conductor portion 41 of the lead wire 40 and the conductor portion 51 of the lead wire 50.

The connection block 300 is made of a conductive metal having self-elasticity, and is formed into a C-shape having one side opened and a curved guide 310 formed at the opening.

A solenoid 400 having a working rod 410 protruding into an upper space 31 through a side wall of the underground pipe 30 and having a tip end coupled to the connecting rod 300 is installed in the casing 200 do.

The solenoid 400 preferably uses a method in which the operating rod 410 is advanced when power is applied and the operating rod 410 is retracted when the power is turned off.

An insulating connection part 420 formed of an electrically insulating synthetic resin material is formed at the tip of the operating rod 410 of the solenoid 400 for insulation between the connecting rod 300 of conductive material and the working rod 410.

The operation rod 410 is inserted and firmly coupled in the process of forming the insulation connection part 420 into synthetic resin.

In addition, an insert protrusion 320 protrudes from the connection block 300 to be inserted into the insulation connection part 420 and be firmly coupled to the insulation connection part 420 during the process of forming the insulation connection part 420.

The insert protrusion 320 is formed integrally with the connection block 300 or integrally formed by welding and includes an extension portion 322 extending from the tip portion of the rod portion 321 and the rod portion 321, 420 to be more firmly inserted.

Power device evolution means 500 is provided on both sides of the upper end of the cabinet 10.

The power device evolving means 500 includes a fire extinguishing gas tank 510 installed at both upper ends of the interior of the cabinet 10 to store the fire extinguishing gas G1 in a pressurized state, And a fire extinguishing gas injection nozzle 530 connected to the fire extinguishing gas tank 510 through the fire extinguishing gas injection valve 520.

The extinguishing gas injection valve 520 is a solenoid valve that is opened or closed by an electrical signal.

Underground pipe evolution means 600 is provided between the lower side of the casing 200 and the lower space 32 of the underground pipe 30.

The underground piping evacuation means 600 includes a fire extinguishing gas tank 610 installed inside the casing 200 to store the fire extinguishing gas G2 in a pressurized state, A fire extinguishing gas spraying nozzle 630 protruding from the lower space 32 through the side wall of the underground pipe 30 and a fire extinguishing gas spraying nozzle 630 projecting from the fire extinguishing gas spraying pipe 620, A solenoid 400 is connected to the solenoid 400 via the solenoid 400. The solenoid 400 includes an extinguishing gas injection valve 640 provided between the injection nozzles 630 and equipped with an opening and closing handle lever 641, (650).

The opening and closing handle lever 641 is rotatably attached to the fire extinguishing gas injection valve 640 by a support shaft 642. The upper end of the interlocking lever 650 is fixed to the operating rod 410 of the solenoid 400, (411).

A connection pin 643 is fixedly projected from an upper end of the opening and closing handle lever 641 and a long hole 652 through which the connection pin 642 is inserted is formed at a lower end of the interlocking lever 650, So that the linear motion of the opening / closing handle lever 641 can be smoothly converted by the turning motion of the opening / closing handle lever 641.

The solenoid 400 and the fire extinguishing gas injection valve 520 are controlled by a control means 700.

The control means 700 includes a fire detection sensor 710 installed at one side of the cabinet 10 and a solenoid 400 and a fire extinguishing gas injection valve 520 according to a detection signal of the fire detection sensor 710. [ A solenoid driving unit 730 for sending a driving signal to the solenoid 400 according to a control command of the control unit 720 and a solenoid driving unit 730 for outputting a driving signal to the solenoid 400 according to a control command of the control unit 720, And a valve driving unit 740 for sending a driving signal to the extinguishing gas injection valve 520 according to a control command.

The solenoid 400, the fire extinguishing gas injection valve 520 and the control means 700 are installed in the casing 200 and use a battery (not shown) charged by a charging device connected to the lead line 50 as a power source So that detailed illustration and description thereof will be omitted.

Hereinafter, the operation of the lead-in / out connection structure of the underground-type ground wire according to the present embodiment will be described.

Since the fire detection signal is not transmitted from the fire detection sensor 710 in the initial installation state and in a state in which normal distribution without fire does not occur, the control unit 720 outputs a forward control command for the solenoid 400 The solenoid driving unit 730 sends a forward driving signal to the solenoid 400 in accordance with a control command of the control unit 720 and outputs the forward driving command to the fire extinguishing gas injection valve 520. [ And transmits the closed drive signal to the second switch 520.

The fire extinguishing gas injection valve 520 is closed and the fire extinguishing gas G1 stored in the fire extinguishing gas tank 510 is not sprayed and the operating rod 410 of the solenoid 400 advances and the insulating connection part 420 And the current drawn through the lead wire 40 from the power device 20 contacts the conductor 41 of the lead wire 40 and the conductor 51 of the lead wire 50 And is maintained in a normal power distribution state flowing through the connection block 300 and the lead wires 40. [

Since the connecting rod 300 is made of a metal material having elasticity and the curved guide portion 310 is formed at the opening portion, the conductor 41 of the lead wire 40 and the conductor 51 of the lead wire 50 The connection operation is smoothly performed, and rigid connection is achieved by the vehicle body elasticity.

In addition, since the connecting rod 300 is not physically cut, it is not cut by vibrations or shocks generated in the ground, thereby preventing a contact failure or a power failure.

Since the connecting rod 300 made of a conductor is connected to the solenoid 400 through the inserting line 40, the connecting rod 300 and the lead line 50 because the working rod 410 is connected by the insulating connecting part 420, It does not affect.

The opening and closing handle lever 640 connected to the operating rod 410 of the solenoid 400 through the interlocking lever 650 is held in the closing direction and the fire extinguishing gas injection valve 640 is closed to open the fire extinguishing gas tank 610 The gas G2 stored in the lower space 32 is not injected into the lower space 32 (see FIG. 1).

When a fire occurs in the power device 20 or the cabinet 10 in this state, the fire detection sensor 710 senses the fire and transmits it to the control unit 720. The control unit 720 controls the solenoid 400 The solenoid driving unit 730 sends a retreat driving signal to the solenoid 400 and the valve driving unit 740 drives the solenoid 400 to fire the fire extinguishing gas, And sends an open drive signal to the gas injection valve 520.

The extinguishing gas injection valve 520 is opened and the extinguished gas G1 stored in the extinguishing gas tank 510 in a pressurized state flows through the extinguishing gas injection valve 520 and the extinguishing gas injection nozzle 530 It is possible to cause the fire generated in the power device 20 and the cabinet 10 to be evacuated to the inside of the cabinet 10 toward the device 20. [

The connecting rod 300 connected to the working rod 410 by the insulating connecting part 420 is connected to the conductor 41 of the lead wire 40 and the lead wire 50 The flow of the current flowing from the lead line 40 to the lead line 50 is cut away from the conductor 51 of the lead line 50. [

The opening and closing handle lever 641 connected to the operating rod 410 of the solenoid 400 is rotated in the opening direction so that the fire extinguishing gas injection valve 640 is opened and the fire extinguishing gas in the fire extinguishing gas tank 610 The extinguished gas G2 stored in the pressurized state is injected into the lower space 32 of the underground pipe 30 through the extinguishing gas injection pipe 620, the extinguishing gas injection valve 640 and the extinguishing gas injection nozzle 630 2).

Therefore, it is possible to prevent the fire generated in the cabinet 10 and the power device 20 from diffusing toward the outgoing line 50 in the underground pipe 30.

The fire extinguishing gas injection valve 640 of the underground pipe evolution means 600 for injecting the extinguishing gas G2 into the lower space 32 of the underground pipe 30 is operated by the interlocking lever 650 to operate the solenoid 400 Since the fire extinguishing gas injection valve 640 is opened and closed by being interlocked with the rod 410, the shutdown operation of the lead line 40 and the lead line 50 by the solenoid 400 and the evolving operation in the underground pipe 30 can be performed simultaneously So that efficient operation becomes possible.

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 should be construed as falling within the scope of the present invention.

10: Cabinet 20: Power equipment
30: Underground pipe 40: Lead wire
50: lead wire 100: insulating partition plate
200: casing 300: connecting rod
310: guide part 320: insert projection
400: Solenoid 410: Working rod
420: insulated connection part 500: power device evolution means
510: Extinguishing gas tank 520: Extinguishing gas injection valve
530: Extinguishing gas injection nozzle 600: Underground pipe evolution means
610; Extinguishing gas tank 620: Extinguishing gas spraying pipe
630: Extinguishing gas injection nozzle 640: Extinguishing gas injection valve
641: opening and closing handle lever 650: interlocking lever
700: control means 710: fire detection sensor
720: Control unit 730: Solenoid driving unit
740:

Claims (1)

A power device (20) installed inside the cabinet (10) installed on the ground; An underground pipe (30) embedded in a lower portion of the cabinet (10); A lead-in line (40) leading into the inside of the underground pipe (30) from the power device (20); An outgoing line (50) provided at the lower portion of the lead line (40) inside the underground pipe (30); In the lead-in / lead-out connection structure of the submerged ground wire connecting the lead-in wire (40) and the lead wire (50)
The lead wire 50 is installed in a state in which the insulating cover is peeled off at the lower end and the conductor portion 41 is exposed and the lead wire 50 is peeled off at the upper end to expose the conductor portion 51 And,
An upper space 31 provided inside the underground pipe 30 and positioned in a state where the conductor 41 is exposed at the lower end of the lead wire 40 and an upper space 31 at which the lead wire 50 is connected to the conductor 51 for supporting the upper end of the lead wire 50, and a lower space 32 in which the lower end of the lead wire 50 is exposed;
A casing 200 installed outside the underground pipe 30;
A connecting rod 300 formed between the conductor portion 41 of the lead wire 40 and the conductor portion 51 of the lead wire 50 and formed in a C shape with one side opened;
And a connecting rod 300 which is installed inside the casing 200 and penetrates the side wall of the underground pipe 30 and protrudes into the upper space 31 and is connected to the connecting rod 300 via the insulating connecting part 420. [ 410); < / RTI >
A fire extinguishing gas tank 520 installed at the lower end of the fire extinguishing gas tank 510 is installed at both upper ends of the cabinet 10 to store the extinguishing gas G1 in a pressurized state, And a fire extinguishing gas injection nozzle 530 connected to the fire extinguishing gas tank 510 through the fire extinguishing gas injection valve 520;
A fire extinguishing gas tank 610 installed below the casing 200 to store the extinguishing gas G2 in a pressurized state and a fire extinguishing gas spraying pipe 620 connected to a lower end of the fire extinguishing gas tank 610, A fire extinguishing gas spraying nozzle 630 protruding from the lower space 32 through the side wall of the underground pipe 30 and a fire extinguishing gas spraying nozzle 630 installed between the fire extinguishing gas spraying pipe 620 and the fire extinguishing gas spraying nozzle 630 And an interlocking lever 650 for connecting the actuation rod 410 of the solenoid 400 to the opening and closing handle lever 641. The underground pipeline evacuation Means (600);
A fire detection sensor 710 provided at one side of the cabinet 10 and a control command for opening and closing the solenoid 400 and the fire extinguishing gas injection valve 520 in accordance with a detection signal of the fire detection sensor 710 A solenoid driving unit 730 for sending a driving signal to the solenoid 400 according to a control command of the control unit 720 and a control unit 720 for controlling the extinguishing gas And a control unit (700) including a valve driving unit (740) for sending a driving signal to the injection valve (520)
The connection unit 300 is formed of a metal material having a self-elasticity and curved at the openings to smoothly connect the conductors 41 of the lead wires 40 and the conductors 51 of the lead wires 50 The guide portion 310 is formed,
An insert protrusion 320 to be inserted into the insulation connection part 420 is formed in the connection part 300 during the process of forming the insulation connection part 420,
The insert protrusion 320 includes a rod portion 321 and an extension portion 322 extended from the distal end portion of the rod portion 321 so as to be inserted into the insulative connection portion 420 and to be firmly coupled to the insulative connection portion 420. Respectively,
The opening and closing handle lever 641 is rotatably mounted on the extinguishing gas injection valve 640 by a support shaft 642. The upper end of the interlocking lever 650 is fixed to the operating rod 410 of the solenoid 400 (411) of the grounding cable.

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