KR101525985B1 - structure of up-down type underground distributing board - Google Patents

Abstract

According to the present invention, The present invention relates to an installation structure for an underground buried distribution panel, and more particularly, to a construction structure for an underground buried distribution board, and more particularly, to a construction structure for an underground buried distribution board, Ascending and descending The present invention relates to a construction structure of an underground buried switchboard.
To this end, according to the present invention, there is provided a construction method of an ascent / descent type underground burial type switchboard, in which a floor surface and a side surface are constructed of cement 110, and a drain hole 120 for natural drainage of rainwater or sewage is formed on the floor surface A manhole structure 100 formed to be connected to the drain pipe 121 and having a sealing cover 130 at an upper portion thereof; A panel body 220 installed inside the manhole structure 100 and including a power supply line 230 connected to the primary power line 210 and the secondary power line 220 and a panel body 240 a panel body 200; A female screw 510 formed on the panel support 240 of the panel body and a ball screw fixed to the inside of the manhole structure so that the panel body can be lifted up and down from the ground, 320), and a rotation transmitting part (330) for rotating the ball screw; A plurality of serrated rails 410 fixed to the inside of the manhole structure so as to prevent a departure of the panel body 200 raised and lowered by the ascending and descending portion and serving as a guide in a vertical direction, A guide part 400 provided with a gear 420 fixed to the panel support part 240 of the panel body; A ventilation pipe 500 connected to the manhole structure 100 and the panel body 200 from the manhole structure to the ground so as to circulate air in the manhole structure and ground to prevent condensation on the surface of the manhole structure 100 and the panel body 200; An air supply unit 600 for supplying compressed air to the inside of the panel body 200 to prevent the inflow of rainwater or sewage into the inside of the panel body such that the internal pressure of the panel body 200 is higher than the external pressure; A first level sensor 700 installed at a predetermined height from the bottom surface of the manhole structure 100 to sense rainwater or sewage flowing into the manhole structure in addition to the air supply unit; A second water level sensor 800 installed above the first water level sensor and sensing rainwater or sewage flowing into the inside of the panel body 200 installed in the manhole structure; It is possible to generate an alarm sound to the control center 20 and the portable terminal 30 at a remote place according to whether the first and second water level sensors 700 and 800 are sensed or to supply power to the primary power line 210 of the switchboard And a control unit 900 having a micom 910 for transmitting a control signal for automatically shutting down the main control unit.
Therefore, according to the present invention, it is possible to select between an electric motor or a manual operation handle that can be detachably attached to the rotation transmitting portion provided in the ascending and descending portion, so that the structure is simple compared with the conventional hydraulic method, It is possible to automatically shut off the power supply of the primary power line of the switchboard when sensing rainwater or sewage inflow into the manhole structure and the inside of the panel body through the first and second water level sensors, By generating a sound, there is an effect that prompt response can be attained by flooding.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an underground-

According to the present invention, The present invention relates to an installation structure for an underground buried distribution panel, and more particularly, to a construction structure for an underground buried distribution board, and more particularly, to a construction structure for an underground buried distribution board, Ascending and descending The present invention relates to a construction structure of an underground buried switchboard.

The switchboard or control panel is a device for controlling and monitoring the electric path of electric facilities such as special switchboards, street lamps, security lights, traffic lights, etc. installed outdoors and controlling and monitoring the devices. It is common to be installed on the ground at the level of maintenance.

However, when such an installation board or control panel installed on the ground is installed in a special place such as the ground of a driveway and a road, a cultural property and a golf course, it not only hinders the beauty of the city and the surrounding environment, but also incurs inconvenience to pedestrians and vehicles There is a problem of inefficiency in space utilization, and electric shock due to a traffic accident occurs.

Accordingly, in order to solve the problems of the conventional ground panel and control panel, an underground panel switchboard and a control panel have been developed in spite of flooding.

For example, Korean Patent Registration No. 10-1210349 (Dec. 04, 2012) discloses a landfill manhole installed in the basement and provided with an internal space; A manhole cover mounted on the upper part of the landfill; An elastic pad and a waterproof plate interposed between the landfill manhole and the manhole cover; An electric surveillance control unit provided in an inner space of the reclaimed manhole; A lift unit installed at a bottom portion of the reclaimed manhole and moving the electric surveillance control unit unit up and down from the internal space; A manhole coupling inserted into the through hole formed in the side wall portion of the buried manhole and having a through hole formed therein; An extension pipe coupled to the through hole of the manhole coupling; And a cable which is inserted through the inner hollow of the extension pipe and the through hole of the manhole coupling and connected to the electric surveillance control unit; A remote monitoring and control apparatus including a built-in monitoring control panel including a field control unit controlling operation of the electric monitoring and control unit and controlled by a central computer through wired / wireless communication has been proposed (see FIG. 1).

However, although the above-described technology can raise and lower the electric surveillance control board through the lift unit, it can be buried in the ground under normal conditions. However, since the hydraulic pump unit, the hydraulic cylinder, Due to the complicated structure of the lift unit composed of the unit, there is a possibility of a fault in the ascending / descending operation and an electric shock of the worker, and only the operation state of the electric control panel is remotely monitored through the field control unit. There is still a problem that can not respond quickly to flooding.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a water level sensor and a control unit that can raise / Up-and-down method that enables quick response when entering It is an object of the present invention to provide a construction structure of an underground buried switchboard.

According to an aspect of the present invention, there is provided a construction method of an ascent / descent type ground-mounted switchboard in which a bottom surface and a side surface are constructed of cement (110), natural drainage of rainwater or sewage A manhole structure 100 having a drain hole 120 formed therein and connected to the drain pipe 121 and having a sealing cover 130 at an upper portion thereof; A panel body 220 installed inside the manhole structure 100 and including a power supply line 230 connected to the primary power line 210 and the secondary power line 220 and a panel body 240 a panel body 200; A female screw 510 formed on the panel support 240 of the panel body and a ball screw fixed to the inside of the manhole structure so that the panel body can be lifted up and down from the ground, 320), and a rotation transmitting part (330) for rotating the ball screw; A plurality of serrated rails 410 fixed to the inside of the manhole structure so as to prevent a departure of the panel body 200 raised and lowered by the ascending and descending portion and serving as a guide in a vertical direction, A guide part 400 provided with a gear 420 fixed to the panel support part 240 of the panel body; A ventilation pipe 500 connected to the manhole structure 100 and the panel body 200 from the manhole structure to the ground so as to circulate air in the manhole structure and ground to prevent condensation on the surface of the manhole structure 100 and the panel body 200; An air supply unit 600 for supplying compressed air to the inside of the panel body 200 to prevent the inflow of rainwater or sewage into the inside of the panel body such that the internal pressure of the panel body 200 is higher than the external pressure; A first level sensor 700 installed at a predetermined height from the bottom surface of the manhole structure 100 to sense rainwater or sewage flowing into the manhole structure in addition to the air supply unit; A second water level sensor 800 installed above the first water level sensor and sensing rainwater or sewage flowing into the inside of the panel body 200 installed in the manhole structure; It is possible to generate an alarm sound to the control center 20 and the portable terminal 30 at a remote place according to whether the first and second water level sensors 700 and 800 are sensed or to supply power to the primary power line 210 of the switchboard And a control unit 900 having a micom 910 for transmitting a control signal for automatically shutting down the main control unit.

Preferably, the cement 110 of the manhole structure 100 is formed by applying a waterproofing agent to the outer and inner walls to prevent inflow of rainwater or sewage.

The primary power source line 210 and the secondary power source line 220 connected to the switchboard 230 may be connected to the manhole structure 100 to prevent damage to the conduit pipe due to the lifting and lowering of the panel body 200. [ And a flexible conduit 211 that can be stretched and contracted is installed in the inside.

Preferably, the panel body 200 includes a door part 250 that can be opened and closed from the panel body so that an operator can easily check the switchboard 230, and a window part 250 for visual observation of the switchboard 260) are further provided.

Preferably, the door unit 250 is provided with a packing member 251 mounted on a contact surface with the panel body to prevent inflow of rainwater or sewage into the inside of the panel body, And a bolt coupling part 252 for coupling with the panel body.

The rotation transmitting portion 330 of the ascending and descending portion may be detachably attached to the ball screw 320 so that the panel body 200 can be raised and lowered by rotating the ball screw 320, And an electric motor that is capable of normal / reverse rotation control.

The rotation transmitting portion 330 of the ascending and descending portion may be detachably attached to the ball screw 320 so that the panel body 200 can be raised and lowered by rotating the ball screw 320, And is a handle for operation.

Preferably, the air supply unit 600 includes a compressor 610 that compresses air to supply compressed air to the inside of the panel body and is fixed to the electric pole 10, An air tube 620 composed of a flexible tube 621 that can be expanded and contracted in the manhole structure 100 is installed to prevent damage due to the panel body 200 which is connected to the inside of the panel body and is lifted up and down. Is provided.

The control unit 900 controls the first and second water level sensors 700 and 700 to detect a rainwater or an inflow of sewage into the manhole structure 100, When a rainwater or an inflow of sewage into the inside of the panel body 200 is sensed through the second water level sensor 800, the alarm sound is generated in the control center 20 and the portable terminal 30, And the power supply of the primary power source line 210 of the switchboard 230 built in the body is automatically programmed.

Preferably, the control unit 900 includes an alarm sound transmitting device 930 for generating an alarm sound to a remote control center and a portable terminal.

According to the present invention, According to the construction structure of an underground buried switchboard, the following effects can be obtained.

 The underground embedded type switchboard installed in the inside of the manhole structure is constructed by the ascending and descending portion, the guide portion, the ventilation pipe, the air supply portion, the first / second level sensor, and the control portion,

(1) Designed to be selectable from an electric motor or a hydraulically actuated handle capable of attaching and detaching a rotation transmitting portion provided in a lifting portion of a ball screw type, the structure is simple compared with the conventional hydraulic type, It is possible to prevent the occurrence of a failure in advance.

(2) By ventilation piping, air circulation inside the manhole structure and air on the ground is naturally circulated to prevent the condensation phenomenon on the manhole structure and the panel body surface, thereby preventing the breakdown of the switchboard due to the condensation phenomenon.

(3) When detecting rainwater or sewage inflow into the manhole structure and the panel body through the first / second water level sensor, the power supply of the primary power line of the switchboard is automatically shut off and the alarm sound is generated at the remote control center, Rapid response to flooding is possible.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a remote monitoring and control apparatus including a conventional embedded control panel; FIG.
FIG. 2 is a perspective view of the lifting / lowering system according to the preferred embodiment of the present invention. The diagram shows the overall structure of the construction structure of the underground embedded switchboard
FIG. 3 is a perspective view of a lifting / lowering system according to a preferred embodiment of the present invention. A plan view of a construction structure of an underground buried switchboard;
4 is a view illustrating a panel body drawn out to the ground by a lifting section according to a preferred embodiment of the present invention
5 is a block diagram of a control unit according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements throughout. Although the same reference numerals are used in the different drawings, the same reference numerals are used throughout the drawings. The prior art should be interpreted by itself. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 to 5, the present invention can be applied to a lifting / lowering type The main technical construction means of the construction structure of the underground burial type switchboard includes a manhole structure 100, a pannel body 200, a lifting and lowering part 300, a guide part 400, a ventilation pipe 500, an air supply part 600 First and second water level sensors 700 and 800, and a control unit 900.

2 and 3, the manhole structure 100 is a box-like structure embedded in a basement. The bottom and side surfaces of the manhole structure 100 are constructed of cement 110, and natural drainage A drain hole 120 for the drain pipe 121 is formed and connected to the drain pipe 121, and a sealing cover 130 is provided at an upper portion.

Here, in the cement of the manhole structure, a waterproofing agent is applied to the outer wall and the inner wall to prevent inflow of rainwater or sewage, and is waterproofed.

In addition, the drain hole 120 of the manhole structure is configured such that rainwater or sewage introduced into the manhole structure is drained by natural means, and the drain pipe 121 connected to the drain hole is connected to the sewage facility.

The sealing cover 130 is fitted with a packing material of rubber or silicon so that rainwater or sewage does not flow into the cement interface of the manhole structure.

2 to 4, the panel body 200 is a casing unit in which an electric distribution board 230 is installed. The panel body 200 is installed inside the manhole structure 100 and includes a primary power line 210, And a switchboard 230 connected to the secondary power line 220. The panel support 240 is mounted on a lower portion of the switchboard.

The primary power source line 210 and the secondary power source line 220 connected to the switchboard 230 are connected to each other by a flexible and flexible material in the manhole structure to prevent damage to the conduit pipe due to the lifting and lowering of the panel body 200. [ (Flexible) conduit 211 is installed.

In addition, the panel body 200 includes a door part 250 that can be opened and closed from the panel body so that an operator can easily check the board, and a window part 260 for observing the power distribution board with the naked eye of the door part .

In addition, the door part 250 is provided with a packing member 251 mounted on the contact surface with the panel body to prevent inflow of rainwater or sewage into the inside of the panel body, (Not shown).

The panel supporting portion 240 is a supporting means having a female threaded portion 310 of the ascending and descending portion 300 described below so that the panel body 200 can be supported and the panel body can be raised and lowered.

On the other hand, the distributing board 230 installed in the panel body is an electric device for supplying and controlling power to and control of electrical facilities such as special distribution boards, traffic signals, street lights, A control instrument, a transformer, various instruments and switches are installed intensively.

In addition, the panel body is not limited to the switchboard, but may include a water dispenser, a distribution panel, and a control panel.

The primary power source line 210 of the switchboard is a power source line to which electricity is supplied from the electric pole 10 such as a leading-in pole to the power distribution board, (220) is a power line for supplying power from the switchboard to the electric facilities connected to the electric facilities such as the secondary distribution panel installed inside and outside the house, the pump, the traffic signal, the streetlight, security,

2 and 4, the ascending / descending portion 300 is a means for raising and lowering the panel body 200 and includes a female screw 310 formed on the panel supporting portion 240 of the panel body, A ball screw 320 fixed to the inside of the manhole structure so as to be able to move up and down the panel body from the ground, and a rotation transmitting part 330 for rotating the ball screw do.

Here, the female screw 310 formed on the panel supporting part 240 of the panel body is formed by threading a certain portion of the panel supporting part into a nut such as a nut, and the ball screw 320 is inserted into the female screw, So that the panel body 200 mounted with the panel supporting portion 240 moves up and down according to the rotation direction of the ball screw.

In addition, the ball screw 320 is provided with a fixing bracket 321 having a bearing so as to be rotatable while being fixed to the manhole structure, and the fixing bracket is fastened to the manhole structure 100.

The rotation transmitting portion 330 of the ascending and descending portion can be attached to and detached from the ball screw 320 so that the panel body 200 can be raised and lowered by rotating the ball screw 320, Wherein the ball screw is rotatably connected to the ball screw so that the ball screw can be rotated and the ball screw is rotatably connected to the ball screw, So that the detachable attachment / detachment portion 322 is formed.

The attachment / detachment unit 322 may be formed by a fitting method, a bolt fastening method, or the like so that the rotational force of the electric motor or the handle can be easily transmitted to the ball screw. For example, the ball screw 320, The attachment / detachment portion 322 of the rotation transmitting portion 330 is formed with a key for fitting with the rotation shaft of the electric motor M.

Therefore, by designing the ball screw type electromotive motor or the coupling operation handle which is detachably attachable to the rotation transmitting portion provided on the ascending and descending portion of the ball screw type, the structure is simple compared to the conventional hydraulic type, It is possible to prevent the occurrence of a failure in advance.

2 to 4, the guide unit 400 prevents the panel body 200, which is lifted and lowered by the lifting and lowering unit 300, from rotating and departing and serves as a guide in the vertical direction A plurality of serration rails 410 fixed to the inside of the manhole structure 100 and a gear 420 engaged with the serration rails and rotated in a state fixed to the panel support portion 240 of the panel body .

In other words, the guide portion 400 includes gears 420 mounted on both sides of the panel support portion 240 where the female screw 310 of the ascending and descending portion is formed, and a vertical serration type rail 410 are formed on the side surfaces of the manhole structure 100 to prevent the panel body moving up and down by the ascending and descending portion from rotating and departing and serving as a guide in the vertical direction.

2, the ventilation pipe 500 is installed in the manhole structure 100 so as to circulate air inside and outside the manhole structure 100 to prevent condensation on the surfaces of the manhole structure 100 and the panel body 200. [ And is connected to the ground from the manhole structure 100.

On the other hand, the condensation phenomenon is a phenomenon in which dew is formed on the manhole structure, the panel body surface or the panel body due to the temperature difference between the inside of the panel body installed in the ground and the manhole structure, ≪ / RTI >

Therefore, it is possible to prevent the dew condensation phenomenon of the distribution panel by circulating the inside air of the manhole structure and the ground air through the ventilation pipe, thereby preventing the breakdown of the distribution panel due to the condensation phenomenon.

In addition, the ventilation pipe 500 may be connected from the inside of the panel body 200 to the ground, so that the air inside the panel body and the air on the ground can be circulated.

Referring to FIG. 2, the air supply unit 600 may be configured such that the internal pressure of the panel body 200 is higher than the external pressure of the panel body to prevent inflow of rainwater or sewage into the inside of the panel body. And is means for supplying compressed air to the inside.

The air supply unit includes a compressor 610 that compresses air to supply compressed air to the inside of the panel body and is fixed to the electric pole 10, An air tube 620 composed of a flexible tube 621 is disposed within the manhole structure 100 to prevent damage due to the panel body 200 connected to the panel body 200, The compressor (610) is supplied with utility power from the electric pole (10) and is operated.

In other words, the air supply unit supplies compressed air to the inside of the panel body, which is hermetically sealed through the packing member 251 and the fastening unit 252 provided in the door unit 250 of the panel body 200, When the water level rises in a state where rainwater or sewage is not spontaneously discharged into the drain hole 120 formed in the bottom surface of the manhole structure 100 and is introduced into the manhole structure, The inflow of rainwater or sewage can be prevented.

2 and 5, the first level sensor 700 and the second level sensor 700 are installed at a predetermined height from the bottom surface of the manhole structure 100, The second water level sensor 800 is installed at a predetermined height above the first water level sensor and is installed in the inside of the panel body 200 to collect rainwater or wastewater flowing into the panel body. Or sewage, and a signal sensed through the first / second water level sensor is transmitted to the control unit 900, which will be described later.

In other words, the first and second water level sensors 700 and 800 can prevent rainwater or sewage from being discharged to the drain hole 120 formed on the bottom surface of the manhole structure 100 due to heavy rains, When the water level rises into the inside of the manhole structure, rainwater or sewage is sensed at a predetermined height from the bottom surface of the manhole structure through the first water level sensor, 2 level sensor and transmits the detection signal to the control unit.

Here, the second water level sensor 800 may be installed on a side of a manhole structure corresponding to a certain height from the bottom surface of the panel body, or may be installed on an inner side surface of the panel body, do. That is, the second level sensor is a sensor for sensing rainwater or sewage flowing into the panel body 200.

Meanwhile, the first / second water level sensor may be a contact type or non-contact type water level sensor. The contact type is a sensor that detects the level by controlling the signal processing when current is applied to the electrode sensor when it is energized by contact with the liquid. It is a float type, a contact type, a gear type and the like. A radar system, a laser system, a load cell system, a nuclear system, and an ultrasonic system.

2 and 5, the controller 900 automatically cuts off the primary power line 210 of the switchboard built in the panel body according to whether the first and second water level sensors 700 and 800 are sensed And is provided inside the panel body as control means for generating an alarm sound to the control center 20 and the portable terminal 30 at a remote place.

 In other words, when the rainwater or the inflow of sewage into the manhole structure is sensed through the primary water level sensor 700, the control unit 900 controls the water level of the manhole structure by the power and line carrier communication method, When an alarm sound is generated in the control center 20 and the portable terminal 30 of the panel body and rain water or sewage inflow into the panel body is sensed through the second water level sensor 800, It is pre-programmed so that the power supply of the main power line 210 is automatically interrupted.

The automatic shut-off control of the power supply of the primary power supply line 210 through the controller 900 is pre-programmed so as to control the circuit breaker 40 or the switch in the switchboard, So that it is automatically cut off upon receipt of the detection signal.

In this way, the control unit receives the sensing signal of the first / second water level sensor and compares and analyzes the sensed signal with the control program, and then transmits the control signal to the control center and the portable terminal in the remote place, And a memory 920 for storing a control program, which is provided with a micom 910 of a microcomputer.

In addition, the control unit may include an alarm sound transmitting device 930 for generating an alarm sound to the remote control center and the portable terminal, and the alarm sound transmitting device may be connected to the control center, It is a communication interface for power line carrier communication.

Accordingly, the remote control manager can generate an alarm sound through the control unit to remotely control the power supply of the primary power supply line that enters into the switchboard by generating an alarm sound to the remote control center and the portable terminal at a remote location, The power supply of the primary power line of the switchboard is automatically shut off, so that it is possible to prevent the breakdown of the switchboard due to flooding and the outdoors electric shock accident in advance.

As described above, according to the preferred embodiment of the present invention, The construction of the underground embedded type switchboard is designed to be selectable from an electric motor or a hydraulically operated operation handle which can be detachably attached to the rotary transmission part provided in the ascending and descending part of the ball screw type, It is possible to prevent the occurrence of faults due to the possibility of rising and lowering without supplying air. By ventilation piping, it is possible to circulate the inside of the manhole structure and the air on the ground to prevent condensation on the surface of the manhole structure and the panel body. It is possible to automatically shut off the power supply of the primary power line of the switchboard when sensing the inflow of rainwater or sewage into the manhole structure and the inside of the panel body through the first and second water level sensors, By generating an alarm sound at the control center, there is an effect that prompt response can be attained by flooding.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications 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 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: Jeonju 20: Control center
30: portable terminal 40: breaker
100: Manhole structure 110: Cement
120: Drain hole 121: Drain pipe
130: sealing cover 200: panel body
210,220: Primary / secondary power line 211: Flexible conduit
230: switchboard 240: panel support
250: door part 251: packing member
252: bolt fastening part 260: window part
300: ascending / descending portion 310: female thread
320: ball screw 330: rotation transmitting part
400: guide part 410: serrated rail
420: gear 500: ventilation pipe
600: Air supply unit 610: Compressor
620: air tube 700: first water level sensor
800: second level sensor 900: control unit
910: Microcomputer 920: Memory
930: Alarm sound transmitting device

Claims (10)

In a construction structure of an underground-buried type switchboard of a lifting / lowering type,
A bottom surface and a side surface are constructed of cement 110 and a drain hole 120 for natural drainage of rainwater or sewage is formed on the bottom surface to be connected to the drain pipe 121, (100);
A panel body 220 installed inside the manhole structure 100 and including a power supply line 230 connected to the primary power line 210 and the secondary power line 220 and a panel body 240 a panel body 200;
A female screw part 310 formed on the panel supporting part 240 of the panel body and a ball screw fixed to the inside of the manhole structure so that the panel body can be lifted up and down from the ground And 320, and a rotation transmitting part 330 for rotating the ball screw.
A plurality of serrated rails 410 fixed to the inside of the manhole structure so as to prevent a departure of the panel body 200 raised and lowered by the ascending and descending portion and serving as a guide in a vertical direction, A guide part 400 provided with a gear 420 fixed to the panel support part 240 of the panel body;
A ventilation pipe 500 connected to the manhole structure 100 and the panel body 200 from the manhole structure to the ground so as to circulate air in the manhole structure and ground to prevent condensation on the surface of the manhole structure 100 and the panel body 200;
An air supply unit 600 for supplying compressed air to the inside of the panel body to prevent inflow of rainwater or sewage into the inside of the panel body such that the internal pressure of the panel body 200 is higher than the external pressure;
A first level sensor 700 installed at a predetermined height from the bottom surface of the manhole structure 100 to sense rainwater or sewage flowing into the manhole structure in addition to the air supply unit;
A second water level sensor 800 installed above the first water level sensor and sensing rainwater or sewage flowing into the inside of the panel body 200 installed in the manhole structure;
When rainwater or sewage inflow into the manhole structure 100 is sensed through the first water level sensor 700, the control center 20 and the control center 20 are connected to each other by wireless communication and power line carrier communication. When an alarm sound is generated in the portable terminal 30 and inflow of rainwater or sewage into the inside of the panel body 200 is detected through the second water level sensor 800, the switchboard 230 built in the panel body 200, And a control unit (900) having a micom (910) pre-programmed to automatically cut off power supply to the primary power source line (210) of the submerged burial type switchboard .
The method according to claim 1,
The cement (110) of the manhole structure (100) is fabricated by applying a waterproofing agent to outer and inner walls to prevent inflow of rainwater or sewage. Construction of Underground Embedded Switchgear.
The method according to claim 1,
The primary power source line 210 and the secondary power source line 220 connected to the switchboard 230 can be stretched or shrunk in the manhole structure 100 to prevent breakage of the conduit pipe due to the lifting and lowering of the panel body 200 And a flexible conduit (211) is installed on the upper surface Construction of Underground Embedded Switchgear.
The method according to claim 1,
The panel body 200 includes a door part 250 which can be opened and closed from the panel body so that the operator can easily check the power distribution panel 230 and a window part 260 for observing the power distribution board with the naked eye without opening the door part And a lifting / lowering mechanism Construction of Underground Embedded Switchgear.
5. The method of claim 4,
The door part 250 is provided with a packing member 251 mounted on the contact surface with the panel body to prevent inflow of rainwater or sewage into the inside of the panel body and a packing member 251 fastened to the panel body so as to maintain a close contact state with the panel body. And a bolt fastening part (252) for fastening the bolt Construction of Underground Embedded Switchboard and Urban.
The method according to claim 1,
The rotation transmitting portion 330 of the ascending and descending portion rotates the ball screw 320 so that the panel body 200 can be attached to and detached from the ball screw so that the panel body 200 can move up and down. Wherein the motor is a motor Construction of Underground Embedded Switchgear.
The method according to claim 1,
The rotation transmitting portion 330 of the ascending and descending portion can be attached to and detached from the ball screw 320 so that the panel body 200 can be raised and lowered by rotating the ball screw 320, Up / down system Construction of Underground Embedded Switchgear.
The method according to claim 1,
The air supply unit 600 includes a compressor 610 that compresses air to supply compressed air to the inside of the panel body and is fixed to the electric pole 10, An air tube 620 composed of a flexible tube 621 that can be expanded and contracted is provided in the manhole structure 100 in order to prevent the panel body 200 from rising and falling Features of up / down system Construction of Underground Embedded Switchgear.
delete The method according to claim 1,
The control unit 900 includes an alarm sound transmitting device 930 for generating an alarm sound in the remote control center and the portable terminal. Construction of Underground Embedded Switchgear.

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