KR102030659B1 - Distributing board of underground electric power distribution line - Google Patents

Abstract

The present invention relates to a connection factor distribution board structure of an underground distribution line. An output power line and an underground power line are separated by a non-powered connector operating means when power is not supplied due to fire in a manhole or a distribution facility and a non-powered shutter device is provided to block the manhole and an underground power distribution tunnel so as to minimize damage in accordance with fire spreading. A non-powered manhole fire extinguisher and a non-power switchboard fire extinguisher are provided in the manhole and a distribution facility box to spray fire extinguishing agents into the manhole and the distribution facility box when the fire occurs so as to perform self-extinguishing, thereby minimizing fire damage. Moreover, a fire occurrence is alerted by a non-powered alarm means so that surrounding people can cope with the fire.

Description

Distribution board of underground electric power distribution line {Distributing board of underground electric power distribution line}

The present invention relates to the structure of the connection factor switchboard of the underground distribution line in the field of the distribution technology, more specifically, to separate the underground distribution line from the output line of the distribution facility, even if power is not supplied when a fire occurs in the manhole or distribution facility In addition, the underground distribution tunnel is blocked from the manhole to prevent the fire from spreading to the underground distribution tunnel, thereby minimizing the damage caused by the fire, and by spraying extinguishing agents on the manhole and the distribution equipment where the fire occurs. The fire extinguishing system minimizes damage caused by fire, and relates to a distribution switchgear structure of an underground distribution line that allows people around to cope with a fire by alarming a fire occurrence by a non-power alarm means.

In general, underground distribution lines are to build underground distribution tunnels, to install underground distribution lines therein, to install manholes at one or both ends of underground distribution tunnels, and to install distribution facilities such as ground transformers or ground breakers on top of the manholes. have.

In the underground distribution line, the underground distribution tunnel and the manhole are simply in communication, so if a fire occurs in the manhole and distribution box due to overvoltage and other reasons occurring in the distribution process, the fire spreads to the inside of the underground distribution tunnel. There is a problem that will damage the underground distribution line facilities such that it is impossible to repair, such as damage to the fire until it causes a huge economic damage.

As a prior art for solving such a conventional problem, Republic of Korea Patent No. 10-1231215 (registered on February 1, 2013) "Insulation type switchboard for underground laying" and Republic of Korea Patent No. 10-1483492 (registered on December 12, 2015) "Insulated switchgear for underground embedding" is disclosed.

However, when the fire occurs in the switchboard, the prior art separates the incoming line in the switchboard and the underground cable in the underground pipe and simultaneously blocks the switchboard and the underground pipe.

Korean Patent No. 10-1683769 (registered on Dec. 1, 2016) as a prior art that solves the above problems is "connector switchboard structure of underground distribution line" means a connector operating means operated by a solenoid and a shutter operated by a solenoid. Device and manhole fire extinguisher including solenoid valve and power distribution equipment fire extinguisher including solenoid valve block the underground distribution tunnel and manhole in the event of a fire in the underground distribution line and separate the output and underground distribution lines. To minimize damage and to prevent electric shocks of pedestrians around the distribution box.

However, since the prior art requires power (power) to operate the solenoid and the solenoid valve, the connector operation means, the shutter device, the manhole fire extinguisher, and the power distribution equipment fire extinguisher do not operate in the state of which the power is cut off due to fire. There is a problem that cannot be achieved.

Therefore, even if the power is cut off in the event of a fire, the development of the technology to separate the output and underground distribution lines by the connector operating means, the blocking operation of the manhole and underground distribution tunnels by the shutter device, and the operation of the manhole fire extinguishers and distribution equipment fire extinguishers It is required.

Republic of Korea Patent No. 10-1231215 (registered Feb. 1, 2013) "Insulated switchboard for underground laying" Republic of Korea Patent No. 10-1483492 (registered on Jan. 12, 2015) "Insulation type switchboard for underground laying" Republic of Korea Patent No. 10-1683769 (registered on Dec. 1, 2016) "Structure of the switchboard of the underground distribution line"

Therefore, an object of the present invention is to disconnect the underground distribution line from the output line of the distribution facility even if the power is not supplied when a fire occurs in the manhole or distribution facilities, and also to cut off the underground distribution tunnel from the manhole to the underground distribution tunnel. It prevents the spread and minimizes the damage caused by the fire, and also extinguish fire by spraying extinguishing agents to the manhole and the power distribution equipment where the fire is generated to minimize the damage caused by the fire. It aims to provide a connection factor switchboard structure for underground distribution lines that allows people around to respond to a fire by alerting the occurrence.

The present invention, the underground distribution tunnel 100 to achieve the above object; A manhole 200 connected to one end of the underground distribution tunnel 100; It includes a power distribution facility 300 is installed on the ground of the upper portion of the manhole 200, the underground distribution line 10 is wired inside the underground distribution tunnel 100, the distribution equipment (310) in the distribution box (310) The output wire 20 of the power distribution facility 300 in which the 330 is accommodated is introduced into the underground distribution tunnel 100 through the manhole 200 and connected to the underground distribution line 10. The underground distribution line 10 is supported by a wire support 30 fixedly installed at the bottom of the underground distribution tunnel 100, and the underground distribution line 10 and the output wire 20 are the underground distribution tunnel 100. It is installed to be movable between the manhole 200, the underground distribution line 10 and the output wire 20 in the state connected to the inside of the underground distribution tunnel 100, the underground distribution line 10 and the output wire (20) ) Can be connected and separated by the connector 400 located inside the manhole 200 in a separated state. The connector 400 is embedded in the connector body 410, the protrusion 420 protruding from the front side of the connector body 410, and the connector body 410 and the protrusion 420. The underground wiring line connecting portion 432 is buried in the connector body 410 and the protrusion 420, and the output line fixing connecting portion 431 to which the output wire 20 is fixedly connected, and the underground distribution line 10 are detachably connected to each other. It includes a connection conductor 430 has a non-powered connector operating means 500 for moving the connector 400 in the front and rear direction, and a non-powered shutter device for blocking the underground distribution tunnel 100 and the manhole 200 600, a non-powered manhole fire extinguisher 710 installed inside the manhole 200, a non-powered power distribution equipment fire extinguisher 720 installed inside the power distribution box 310, and people around when the fire occurs It further comprises a non-power warning means 800 to enable, The force connector operating means 500 is installed in the manhole 200 and is horizontally supported by the horizontal guide piece 510 having the guide hole 511 and the horizontal guide piece 510 so as to be movable horizontally. The operating rod 520 to which the connector 400 is coupled to the right end of the male thread portion 521 is formed, a spring support ring 530 for separation to be fitted to the left end of the operating rod 520, and the operating rod 520. A fastening nut 540 fastened to the left end of the c) to prevent detachment of the spring support ring 530, a connection spring support ring 550 fitted to a stop of the operating rod 520, and the It is fastened to the middle part of the operating rod 520 and prevents the connection spring support ring 550 from moving to the right as usual, and is wound on the fuse nut 560 and the operating rod 520 that are melted in the event of a fire. And a compression coil for separation supported between the horizontal guide piece 510 and the separation spring support ring 530. It comprises a spring 570 and a connecting compression coil spring 580 wound around the operating rod 520 and supported between the horizontal guide piece 510 and the connecting spring support ring 550, For connection in a state in which the separation compression coil spring 570 and the connection compression coil spring 580 are installed between the horizontal guide piece 510, the separation spring support ring 530, and the connection spring support ring 550. Installed so that the elastic force of the compression coil spring 580 is larger than the elastic force of the separation compression coil spring 570, the connector 400 is normally connected to the underground distribution line 10 by moving the operating rod 520 to the right. It is installed to maintain the state, the non-powered shutter device 600 is a pair of left and right guide rails installed perpendicular to the left and right side walls of the manhole 200 at the boundary between the underground distribution tunnel 100 and the manhole 200 610 and the pair of left and right guide rails 610. A shutter plate 620 installed to be elevated, a fixing plate 630 coupled to an upper end of the guide rail 610, and a through hole 631 fixed to the fixing plate 630 to be formed in the fixing plate 630. Comprising a screw rod 640 and a fuse nut 650 fastened to the screw rod 640, the non-powered manhole fire extinguisher 710 is a fire extinguishing body installed in the manhole 200 ( 711, a fuse pipe nut 713 connected to the fire extinguishing body 711 and fastened to a lower end of the spray pipe 712 by a spray pipe 712 having a male screw portion formed on an outer circumferential surface thereof. It is configured to include, the non-powered power distribution equipment fire extinguisher 720 is a fire extinguishing main body 721 installed in the power distribution equipment box 310, the injection pipe connected to the fire extinguishing main body 721, the outer thread surface formed with a male thread 722 and a fuse cap fastened to the lower end of the injection pipe 722 to open and close the injection pipe 722. It is configured to include a 723, the non-power warning means 800 has a tapping hole 810 formed on the top surface of the power distribution equipment box 310, and the top opening portion communicating with the tapping hole 810. The housing 820 is fixed to the bottom of the upper plate of the power distribution equipment box 310, the hole 822 is perforated in the center of the bottom plate 821, and installed in the housing 820, the bottom plate 831 is integrated at the bottom And a support member formed between the upper and lower surfaces of the bottom plate 821 of the housing 820 and the bottom plate 831 of the bottom member 830 of the housing 820. It includes a coil spring 840, a screw rod 850 coupled to the bottom surface of the bottom plate 831 and protrudes through the through hole 822, and a fuse nut 860 fastened to the screw rod 850 On the surface of the appearance member 830 is configured to print a warning color and warning phrases with fluorescent paint so that people can easily recognize. To provide a connecting structure of the switchboard factor in underground distribution line according to claim.

According to the connection factor switchboard structure of the underground distribution line of the present invention, even when a power supply is not provided due to a fire in a manhole or a distribution facility, the output line and the underground distribution line are separated by a non-powered connector operating means and a non-powered shutter device is provided. By blocking the manholes and underground distribution tunnels to minimize the damage caused by the spread of fires, the non-powered manhole fire extinguishers and the non-powered power distribution line fire extinguishers are installed in the manholes and distribution facilities to inject fire extinguishing agents into the fired manholes and distribution facilities. By extinguishing itself, the damage caused by the fire can be minimized, and the people can cope with the fire by alerting the occurrence of fire by the non-motorized alarm means.

1 to 7 shows a preferred embodiment of the connection factor switchgear structure of the underground distribution line according to the present invention,
1 is a perspective view showing a state of the usual state and a fire occurrence of the underground distribution line to which the present invention is applied,
Figure 2 is a partial cutaway perspective view showing the state of the usual state and the state of fire in the underground distribution line to which the present invention is applied,
Figure 3 is a perspective view from the front and rear of the underground distribution tunnel and the manhole and power distribution equipment removed;
Figure 4 is an exploded perspective view showing the wire support, the connector and the underground distribution line and the output wire,
5 is an exploded perspective view of the non-powered connector operating means and the non-powered shutter device;
6 is an exploded perspective view of the non-power warning means;
7 is a longitudinal sectional view showing a state in a normal state and a state in case of a fire.

Hereinafter, the connection factor switchgear structure of the underground distribution line according to the present invention will be described in detail according to a preferred embodiment illustrated in the accompanying drawings.

In the following description, bolt through holes and bolt fastening holes through which bolts are simply coupled or fastened to couple components are shown in the drawings, and reference numerals and detailed descriptions thereof will be omitted.

1 to 7 show a preferred embodiment of the connection factor switchgear structure of the underground distribution line according to the present invention.

The connection factor switchgear structure of the underground distribution line according to the present embodiment is as shown in Figs. 1 to 7, the underground distribution tunnel 100; A manhole 200 connected to one end of the underground distribution tunnel 100; The underground distribution line 10 is wired inside the underground distribution tunnel 100, including the distribution facility 300 installed on the ground above the manhole 200, and the output line 20 of the distribution facility 300. Is introduced into the underground distribution tunnel 100 through the manhole 200 is applied to the underground distribution line connected to the underground distribution line (10).

The underground distribution tunnel 100 is completely buried in the ground, the manhole 200 is buried in a state that the upper surface is exposed from the ground.

The underground distribution tunnel 100 may be configured such that the bottom, both side walls and the top plate are integrally formed as shown in the example, but includes a tunnel body with an open top surface and a cover plate covering the upper portion of the tunnel body. can do.

The manhole 200 may include a manhole body 210 having an upper surface opened as shown in the drawing, and a first cover plate 220 and a second cover plate 230 covering the top surface of the manhole body 210. Can be.

The portion where the first cover plate 220 is covered is a portion where a power distribution facility 300 such as a ground transformer or a ground breaker is installed, and the first cover plate 220 serves as a base for supporting the power distribution facility 300. And, the second cover plate 230 is a portion that is opened and closed so that the operator can enter and exit the manhole 200 substantially.

The power distribution equipment 300 is mounted on the first cover plate 220 and the power distribution equipment box 310 is installed in the front door 320, the ground transformer installed in the power distribution equipment box 310. Or it consists of a distributor 330, such as ground switch. 3 and 4, the internal structure of the distributor 330 is not shown and described.

The underground distribution line 10 is supported by the wire support 30 is fixed to the bottom of the underground distribution tunnel (100). Although one wire support 30 is shown in the drawing, a plurality of wire support 30 may be installed to support the underground distribution line 10 at regular intervals.

The wire support 30 is fixed to the bottom of the underground distribution tunnel 100 and the lower support (31) and semi-circular support grooves 32 formed on the upper surface surrounding the lower half of the outer peripheral surface of the underground distribution line 10, and the lower support ( 31 is coupled to the upper end of the upper support 33 formed with a semi-circular support groove 34 to surround the upper half of the outer circumferential surface of the underground distribution line 10, a plurality of coupling the lower support 31 and the upper support 33 (Fig. In FIG. 4, the coupling bolts B1 are configured (see FIGS. 3 and 4).

The coupling bolt B1 is fastened to the lower support 31 by passing through the upper support 33.

In the case where the insulation coated wire is used as the underground distribution line 10 and the output wire 20, the underground distribution line 10 peels the insulation coating at the end of the manhole 200 to expose the conductor part, and the output wire 20 is The insulating coating of the lower end may be peeled off so that the conductor part is exposed, so that the exposed conductor part may be mechanically and electrically connected by the connector 400 described later.

The connector 400 is embedded in the connector body 410, the protrusion 420 protruding from the front side of the connector body 410, and embedded in the connector body 410 and the protrusion 420. It comprises a connection conductor 430 having an output line fixed connecting portion 431 to which the electric wire 20 is fixedly connected, and an underground distribution line connecting portion 432 to which the underground distribution line 10 is detachably connected (FIGS. 3 and FIG. 3). 4].

The connector 400 is installed to be movable between the underground distribution tunnel 100 and the manhole 200, and in the state of the underground distribution tunnel 100 and the output distribution line 20 connected thereto. Located in the state in which the underground distribution line 10 and the output wire 20 is separated bar to be located inside the manhole 200, for this purpose it may be provided with a separate slide guide means (not shown).

A non-powered connector operating means 500 is provided to move the connector 400 in the front and rear directions.

The non-powered connector operating means 500 is installed in the manhole 200 and is horizontally supported by the horizontal guide piece 510 having a guide hole 511 and the horizontal guide piece 510 so as to be movable horizontally. The operating rod 520 to which the connector 400 is coupled to the right end of the male screw portion 521 formed thereon, a spring support ring 530 for separation to be fitted to the left end of the operating rod 520, and the operating rod ( A fixing nut 540 fastened to the left end of the 520 to prevent the separation of the spring support ring 530 from being separated, a connection spring support ring 550 fitted to a stop of the operating rod 520, and It is fastened to the middle of the operating rod 520 to prevent the connection spring support ring 550 in the usual movement to the right and the fuse nut 560 to be melted in the event of a fire and the operating rod 520 Separation is wound and supported between the horizontal guide piece 510 and the spring support ring 530 for separation It comprises a compression coil spring 570, and a connection coil coil 580 for the winding wound around the operating rod 520 and supported between the horizontal guide piece 510 and the connection spring support ring 550. [See FIGS. 3 and 5].

The operating rod 520 penetrates the right end through the coupling hole 411 formed in the connector body 410, and fastens the coupling nut 522 to the male screw part 521 at both front and rear ends of the connector body 410. Can be coupled to the connector 400.

The separation spring support ring 530 is to support the left end of the compression coil spring 570 for separation without changing the position of the operating rod 520 in normal and fire occurs, the inner diameter to the outer diameter of the operating rod 520 It may be formed to correspond.

The connection spring support ring 550 usually supports the right end of the connection compression coil spring 580, and in the event of a fire, it is to be separated from the right end of the connection compression coil spring 580, so that the inner rod operates 520. It is preferable to form larger than the outer diameter of).

The separating compression coil spring 570 is a horizontal guide piece in a compressed state (see Fig. 2 (a) and Fig. 3 (a) (b)) in a free state (see Fig. 2 (b) and Fig. 5). 510 is installed between the spring support ring 530 and the connection compression coil spring 580 between the horizontal guide piece 510 and the connection spring support ring 550 in a compressed state in a free state. Install on.

In a state in which the separation compression coil spring 570 and the connection compression coil spring 580 are installed between the horizontal guide piece 510, the separation spring support ring 530, and the connection spring support ring 550.

It is installed so that the elastic force of the connection compression coil spring 580 may be larger than the elastic force of the separation compression coil spring 570. Then, the operating rod 520 is normally moved to the right, so that the connector 400 is connected to the underground distribution line 10. Allows you to stay connected.

The fuse nut 560 is formed of a material that melts when a fire occurs in the manhole 200 and the temperature rises.

As a metal having a low melting point used in the fuse nut 560, a soluble alloy (alloy of Pb-Sn-Cd-Bi) may be used. The soluble alloy can have a melting point of 79 ~ 300 ℃ depending on the alloy degree.

The melting point of the fuse nut 560 may be 80 to 100 ° C lower than the melting point of 130 ° C of polypropylene and polyethylene.

In the illustrated example, the separation coil coil 570 and the connection compression coil spring 580 have the same length in the free state and the compression installation state, and the elastic force of the connection compression coil spring 580 itself is separated. For compression coil spring 570 itself is shown to use a larger than the elastic force.

The connection factor switchboard structure of the underground distribution line according to the present embodiment is a non-powered shutter device for blocking between the underground distribution tunnel 100 and the manhole 200 when a fire occurs between the underground distribution tunnel 100 and the manhole 200 ( 600).

The non-powered shutter device 600 includes a pair of left and right guide rails 610 installed vertically on the left and right sidewalls of the manhole 200 at the boundary between the underground distribution tunnel 100 and the manhole 200, and the left and right ones. A shutter plate 620 installed to be elevated along a pair of guide rails 610, a fixed plate 630 coupled to an upper end of the guide rail 610, and a fixed plate 630 fixed to the fixed plate 630. And a screw rod 640 penetrating through the through hole 631 formed therein, and a fuse nut 650 fastened to the screw rod 640 (see FIGS. 3 and 5).

The fuse nut 650 is formed of a material that is melted when the temperature rises due to a fire in the manhole 200.

As a metal having a low melting point used in the fuse nut 650, a soluble alloy (alloy of Pb-Sn-Cd-Bi) may be used. The soluble alloy can have a melting point of 79 ~ 300 ℃ depending on the alloy degree.

The melting point of the fuse nut 650 may be 80 to 100 ° C lower than the melting point of 130 ° C of polypropylene and polyethylene.

The connection factor switchgear structure of the underground distribution line according to the present embodiment has a non-powered manhole fire extinguisher 710 installed inside the manhole 200 and a non-powered power distribution equipment fire extinguisher 720 installed inside the distribution box 310. It further includes.

The non-powered manhole fire extinguisher 710 is a fire extinguishing main body 711 installed in the manhole 200, the injection pipe 712 is connected to the fire extinguishing main body 711 and the outer threaded surface is formed with a male thread, the injection pipe ( It is configured to include a fuse cap nut 713 is fastened to the lower end of the 712 to open and close the injection pipe 712 (see FIGS. 3 and 5).

The non-powered power distribution equipment fire extinguisher 720 is a fire extinguishing main body 721 installed inside the power distribution equipment box 310, the injection pipe 722 connected to the fire extinguishing main body 721 and the external thread is formed on the outer peripheral surface, and It is configured to include a fuse cap nut 723 is fastened to the lower end of the injection pipe 722 to open and close the injection pipe 722 (see Figs. 3 and 5).

The extinguishing bodies 711 and 721 are formed in the form of a pressure tank, and the extinguishing agent is filled therein.

As the extinguishing agent, it is preferable to use a extinguishing agent mainly composed of CO ₂ gas or dichlorofluoroethane (HCFC-123) gas, which can minimize secondary damages in which power distribution facilities and electric wires are corroded after extinguishing a fire.

The fuse cap nuts 713 and 723 are formed of a material that melts when a fire occurs in the distribution box 310 and the temperature rises.

As the metal having a low melting point used in the fuse cap nuts 713 and 723, a soluble alloy (alloy of Pb-Sn-Cd-Bi) may be used. The soluble alloy can have a melting point of 79 ~ 300 ℃ depending on the alloy degree.

The melting points of the fuse cap nuts 713 and 723 may be 80 to 100 ° C lower than the melting point of 130 ° C of polypropylene and polyethylene.

The connection factor switchgear structure of the underground distribution line according to the present embodiment further includes a non-powered alarm means 800 so that people in the vicinity can recognize when a fire occurs.

The non-power warning means 800 has a tapping hole 810 formed on the top surface of the distribution box 310, the top opening portion communicating with the tapping hole 810 on the bottom surface of the top plate of the distribution box 310 The housing 820 is fixed and the hole 822 is perforated in the center of the bottom plate 821, the housing 820 is installed in the housing 820 and the bottom plate 831 is formed integrally at the bottom and the cap plate 832 at the top An integrally formed projecting member 830, a compression coil spring 840 supported between the bottom surface of the bottom plate 821 of the housing 820 and the bottom surface of the bottom plate 831 of the housing member 830, and the bottom plate. The screw rod 850 is coupled to the lower surface of the 831 and protrudes through the through hole 822, and a fuse nut 860 fastened to the screw rod 850.

The housing 820 may be fixed to the top of the housing 820 by welding to the bottom of the upper plate of the distribution box 310, for this purpose, a flange 823 is formed on the top of the housing 820.

It is preferable to print warning colors and warning phrases on the surface of the appearance member 830 by fluorescent paint so that people can easily recognize them.

The fuse nut 860 is formed of a material that melts when a temperature rises due to a fire in the distribution box 310.

As a metal having a low melting point used in the fuse nut 860, a soluble alloy (alloy of Pb-Sn-Cd-Bi) may be used. The soluble alloy can have a melting point of 79 ~ 300 ℃ depending on the alloy degree.

The fuse nut 860 may have a melting point of 80 to 100 ° C. lower than 130 ° C. of the melting point of polypropylene and polyethylene.

Hereinafter, the operation of the connection factor switchgear structure of the underground distribution line according to the present embodiment will be described.

In the initial state, the underground distribution line 10 is supported in the underground distribution tunnel 100 by the wire support 30, and the connector 400 has the operating rod 520 of the non-powered connector operating means 500 to the right. It is maintained in the moved state, and thus, the underground distribution line 10 and the output wire 20 maintains the state connected by the connector 400. That is, the output wire 20 is fixedly connected to the output wire fixed connection 431 of the connector 400, the underground distribution line 10 is connected to the underground distribution line connecting portion 432 and electrically connected through the connection conductor 430 Will remain intact.

Here, the elastic force of the connection compression coil spring 580 installed on the right side based on the horizontal guide piece 510 is installed larger than the elastic force of the separation compression coil spring 570 installed on the left side based on the horizontal guide piece 510. Therefore, the operating rod 520 is moved to the right to maintain the connector 400 is connected to the underground distribution line (10).

In addition, the shutter plate 620 of the non-powered shutter device 600 is raised to be positioned at the height of opening the boundary between the underground distribution tunnel 100 and the manhole 200, the screw rod fixed to the top of the shutter plate (620) ( Since the fuse nut 650 is fastened to the screw rod 640 while the 640 penetrates the through hole 631 of the fixing plate 630 coupled to the upper end of the guide rail 610, the shutter plate 620 is raised. Stays in the state.

The non-powered manhole fire extinguisher 710 and the non-powered power distribution equipment fire extinguisher 720 have the injection pipes 712 and 722 blocked by the fuse cap nuts 713 and 723, respectively, so that the extinguishing agents in the fire extinguishing bodies 711 and 721 are not injected. Is maintained.

The non-power warning means 800 is coupled to the bottom plate 831 of the appearance member 830 in a state in which the appearance member 830 installed to be elevated in the housing 820 is lowered, and the compression coil spring 840 is compressed. Since the fuse nut 860 is fastened to the screw rod 850 passing through the through hole 822 formed in the bottom plate 821 of the housing 820, the projecting member 830 is inserted into the housing 820, and The cap plate 832 is maintained while blocking the upper opening of the housing 820 (see FIGS. 2A and 7A).

In this state, when a fire occurs in the manhole 200 and the power distribution facility 300 and the temperature in the manhole 200 and the power distribution box 310 rises, the fuse nut 560 of the non-powered connector operating means 500 Melting and falling out, and thus the compressed compression coil spring 580, which is compressed, becomes free and becomes unable to exert an elastic force in the right direction, that is, in the connection direction, with respect to the operating rod 520. As the compression coil spring 570, which has been compressed, is extended, the separation spring support ring 530 is pushed to the left, so that the operating rod 520 moves to the left, and the right side of the operating rod 520 The coupled connector 400 moves to the left side of the underground distribution line 10 while moving to the left side and moves toward the manhole 200 (see FIGS. 2B and 7B).

In addition, the fuse nut 650 of the non-powered shutter device 600 is melted by heat to fall off from the screw rod 640, so that the shutter plate 620 is lowered due to its own weight and the manhole 200 and underground distribution tunnel ( 100) is blocked.

As the underground distribution tunnel 100 and the manhole 200 are blocked by the shutter plate 620, the fire generated in the underground distribution tunnel 100 is diffused into the manhole 200 or the fire generated in the manhole 200 is underground. By preventing the spread to the distribution tunnel 100 it is possible to minimize the damage caused by the spread of the fire.

In addition, the fuse cap nut 713 of the non-powered manhole fire extinguisher 710 and the fuse cap nut 723 of the non-power distribution equipment fire extinguisher 720 are melted and dropped from the injection pipes 712 and 722, respectively. The fire extinguishing agent filled in the fire extinguishing bodies 711 and 721 is injected as it is opened so that the fire generated in the manhole 200 and the distribution box 310 can be quickly suppressed by itself and minimize the damage caused by the fire. (B) of FIG. 7].

In addition, a fire extinguishing agent used in the manhole fire extinguisher 710 and the power distribution equipment fire extinguisher 720 uses a extinguishing agent mainly composed of CO ₂ gas or dichlorofluoroethane (HCFC-123) gas, thereby causing secondary corrosion of power distribution equipment and wires. Damage can be minimized, minimizing replacement parts, allowing for faster recovery and reduced recovery costs.

After the fire is extinguished, the repair work cannot be automatically repaired because the parts damaged by the fire need to be replaced and reassembly of each part is not possible.

In addition, the non-power warning means 800 is the fuse nut 860 that is fastened to the screw rod 850 coupled to the bottom of the projection member 830 is melted by heat to fall off from the screw rod 850, thereby compressing As the compressed coil spring 840 is extended, the concave member 830 is pushed upward, and the concave member 830 protrudes from the housing 820 and the concave hole 810 to generate a visual alarm (FIG. 2 (b) and 7 (b)].

In this case, since the warning color and the warning phrase are printed on the appearance member 830 by fluorescent paint, it is easy to recognize that a fire has occurred in the surrounding people and can cope with the fire.

The embodiments described above are just an example, and various modifications and changes may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the scope of the technical spirit of the present invention by the above-described embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10: underground distribution line 20: output line
30: wire support 100: underground distribution tunnel
200: manhole 300: power distribution equipment
400 connector 500 non-powered connector operating means
510: horizontal guide 520: operating rod
530: Separation spring support ring 540: Fixing nut
550: Spring support ring for connection 560: Fuse nut
570: separation compression coil spring 580: connection compression coil spring
600: non-powered shutter device 610: guide rail
620: shutter plate 630: fixed plate
640: screw rod 650: fuse nut
710: powerless manhole fire extinguisher 720: powerless power distribution equipment fire extinguisher
811, 821: digestive body 812, 822: injection pipe
813, 823: fuse cap nut 800: non-power alarm means
810: hole 820: housing
830: projecting member 840: compression coil spring
850: screw rod 860: fuse nut

Claims (1)

Underground distribution tunnel 100; A manhole 200 connected to one end of the underground distribution tunnel 100; It includes a power distribution facility 300 is installed on the ground of the upper portion of the manhole 200, the underground distribution line 10 is wired inside the underground distribution tunnel 100, the distribution equipment (310) in the distribution box (310) The output wire 20 of the power distribution facility 300 in which the 330 is accommodated is introduced into the underground distribution tunnel 100 through the manhole 200 and connected to the underground distribution line 10. ,
The underground distribution line 10 is supported by the wire support 30 is fixed to the bottom of the underground distribution tunnel 100, the underground distribution line 10 and the output wire 20 is the underground distribution tunnel 100 and It is installed to be movable between the manhole 200, located in the underground distribution tunnel 100 in the state that the underground distribution line 10 and the output wire 20 is connected, the underground distribution line 10 and the output wire 20 In this separated state, the connector is installed to be connected and separated by the connector 400 located inside the manhole 200.
The connector 400 includes a connector body 410, a protrusion 420 protruding from the front side of the connector body 410, and the connector body 410 and the protrusion 420 embedded in the connector body 410. 410 and a connecting conductor having an underground wiring line connecting portion 432 to which the underground wiring line 10 is detachably connected and the output line fixing connecting portion 431 embedded in the protrusion 420 and fixedly connected to the output wire 20. 430, including
A non-powered connector operating means 500 for moving the connector 400 in the front-rear direction, a non-powered shutter device 600 for blocking the underground distribution tunnel 100 and the manhole 200, and an inside of the manhole 200. The non-powered manhole fire extinguisher 710 is installed in, the non-powered power distribution equipment fire extinguisher 720 is installed in the distribution box 310, and the non-powered alarm means 800 to be recognized by people around when a fire occurs. Include,
The non-powered connector operating means 500 is installed in the manhole 200 and is horizontally supported by the horizontal guide piece 510 having a guide hole 511 and the horizontal guide piece 510 so as to be movable horizontally. The operating rod 520 to which the connector 400 is coupled to the right end of the male screw portion 521 formed thereon, a spring support ring 530 for separation to be fitted to the left end of the operating rod 520, and the operating rod ( A fixing nut 540 fastened to the left end of the 520 to prevent the separation of the spring support ring 530 from being separated, a connection spring support ring 550 fitted to a stop of the operating rod 520, and It is fastened to the middle of the operating rod 520 to prevent the connection spring support ring 550 in the usual movement to the right and the fuse nut 560 to be melted in the event of a fire and the operating rod 520 Separation is wound and supported between the horizontal guide piece 510 and the spring support ring 530 for separation. It comprises a compression coil spring 570, and a compression coil spring 580 for winding connected to the operating rod 520 and supported between the horizontal guide piece 510 and the connection spring support ring 550, ,
The separation compression coil spring 570 and the connection compression coil spring 580 are connected between the horizontal guide piece 510, the separation spring support ring 530, and the connection spring support ring 550. It is installed so that the elastic force of the compression coil spring 580 for the action may be greater than the elastic force of the separation compression coil spring 570, and the operating rod 520 is normally moved to the right to connect the connector 400 to the underground distribution line 10. Installed to maintain the status of
The non-powered shutter device 600 includes a pair of left and right guide rails 610 installed vertically on the left and right sidewalls of the manhole 200 at the boundary between the underground distribution tunnel 100 and the manhole 200, and the left and right ones. A shutter plate 620 installed to be elevated along a pair of guide rails 610, a fixed plate 630 coupled to an upper end of the guide rail 610, and a fixed plate 630 fixed to the fixed plate 630. And a screw rod 640 penetrating through the through hole 631 formed therein) and a fuse nut 650 fastened to the screw rod 640.
The non-powered manhole fire extinguisher 710 is a fire extinguishing main body 711 installed in the manhole 200, the injection pipe 712 is connected to the fire extinguishing main body 711 and the outer thread surface is formed with a male thread, the injection pipe ( It is configured to include a fuse cap nut 713 fastened to the bottom of the 712 to open and close the injection pipe 712,
The non-powered power distribution equipment fire extinguisher 720 is a fire extinguishing main body 721 installed inside the power distribution equipment box 310, the injection pipe 722 connected to the fire extinguishing main body 721 and the external thread is formed on the outer peripheral surface, and It is configured to include a fuse cap nut 723 is fastened to the lower end of the injection pipe 722 to open and close the injection pipe 722,
The non-power warning means 800 has a tapping hole 810 formed on the top surface of the distribution box 310, the top opening portion communicating with the tapping hole 810 on the bottom surface of the top plate of the distribution box 310 The housing 820 is fixed and the hole 822 is perforated in the center of the bottom plate 821, the housing 820 is installed in the housing 820 and the bottom plate 831 is formed integrally at the bottom and the cap plate 832 at the top An integrally formed projecting member 830, a compression coil spring 840 supported between the bottom surface of the bottom plate 821 of the housing 820 and the bottom surface of the bottom plate 831 of the housing member 830, and the bottom plate. Is coupled to the lower surface of the 831 is configured to include a screw rod 850 protruding through the through hole 822, and a fuse nut 860 fastened to the screw rod 850,
The connection factor switchboard structure of the underground distribution line, characterized in that the surface of the appearance member 830 is configured to be easily recognized by people by printing a warning color and a warning phrase with a fluorescent paint.

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