KR101150853B1 - Underground wiring device - Google Patents

Abstract

PURPOSE: An underground wire installation apparatus is provided to separately arrange a space for storing rainwater in an underground wall body, thereby preventing water inflow to an electric room. CONSTITUTION: A manhole main body(10) receives a waterproof wire from the ground. A trench main body(20) receives and stores inflowing water. A cable room(30) is formed in order to supply only the waterproof wire to an electric room. A composite connection path(40) connects the manhole main body and the trench main body. A first sensor member(72) detects a water level of the inflowing water. A first driving pump discharges water according to a sensing signal.

Description

[0001] UNDERGROUND WIRING DEVICE [0002]

The present invention relates to an underground cable installation apparatus, and more particularly, to an underground cable installation apparatus for an underground wall installed in a ground for buried electric wires in a water reservoir, To an underground cable installation device capable of preventing the inflow of the underground cable.

It is necessary for the undergroundization project to install the telephone pole, the transformer and the cable, the cable broadcasting cable and the traffic signal control line underground in the underground in order to create the beauty of the city. Such power and communication lines are installed on the ground and installed on the ground. As a result, traffic congestion costs are reduced through the use of space on the ground road, The stability of the device will be improved.

In Korea, the underground communal area has been installed to accommodate a portion of electric power and communication facilities. However, it is desirable to recognize the necessity of a public area to accommodate national backbone networks such as gas and crude oil as well as electric power and communication facilities. It is necessary to improve the maintenance and related technologies.

In particular, the underground wires connected to the machinery room of the power plant or the power plant are connected to the electric room through the manhole and the underground wall.

Since the existing underground wires are buried in underground manholes and underground walls, the manholes and the underground walls are connected to each other by underground wires. As a result, the rainwater flowing through the manholes flows into the electric room through the underground wall, There is a problem that it causes malfunction or weakens the durability of the electric equipment. Therefore, there is a need to improve this.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a trench for storing rainwater, It is an object of the present invention to provide an underground cable installation apparatus for preventing an inflow of stormwater into an electric room connected to a cable room by connecting electric wires in a water reservoir to a cable room through a position higher than a water level.

It is another object of the present invention to provide an underground cable installation device for automatically shutting off the flow of troughs from the trench to the cable rom when the water level of the trench is greater than a predetermined value .

In addition, the present invention provides an underground cable installation apparatus for preventing storm surges introduced into a cable room from being discharged to the outside of a cable room, There is a purpose.

A ground wire installation apparatus according to the present invention comprises: a manhole main body which is embedded in the ground and inserts electric wires in the ground from the ground, a trench main body which is embedded in the ground to be connected to the manhole main body and stores rainwater flowing through the manhole main body, And a cable room disposed adjacently to the trench body or the manhole body and collecting only the wires among the waterproofing paper provided under the manhole body through the manhole body for supplying to the electric room.

And the manhole body and the trench body are connected to each other through a complex connection passage to allow movement of the wire and the rainwater in the waterproof paper toward the trench body.

The wire of the waterproof paper installed in the ground through the manhole main body can be moved to the cable room through the wire connecting path at a position higher than the water surface of the storm stored in the trench body.

The wire of the waterproof paper installed in the ground through the manhole body can move to the cable room beyond the upper edge of the trench main body.

Preferably, the trench body and the cable room, which are open for movement of the wire in the reservoir, are covered by a trench cover.

Wherein the trench body is provided with a first sensor member for sensing a set level of the incoming storm, the trench main body being capable of interrupting the first outflow pipe, wherein the first outflow pipe is connected to the first sensor member And a first movable pump which operates according to the flow rate and discharges the storm.

Wherein the trench body is provided with a first outflow pipe to be inserted into the cable room and the cable room has a second sensor member for sensing a set level of stormwater flowing through the first outflow pipe, Preferably, the room has a second movable pump that operates according to the signal of the second sensor member and discharges the storm.

As described above, the ground wire installation apparatus according to the present invention separately includes a trench for storing rainwater-like rainwater in an underground wall provided in the ground for buried electric wires among waterproofing paper, unlike the prior art, By connecting the wires in the reservoir to the cable room through a position higher than the water level stored in the trench, it is possible to prevent the inflow of the storm into the electric room connected to the cable room.

When the level of the rainwater flowing into the trench is greater than the predetermined value, the water is automatically pumped to the outside, thereby preventing the rainwater from flowing from the trench to the cable rom.

In addition, according to the present invention, when the storm that has been set in the trench is discharged to the cable room and then discharged to the outside of the cable room automatically, the storm can be prevented from flowing into the electric room.

1 is a layout diagram of an underground cable installation apparatus according to an embodiment of the present invention.
2 is a layout diagram of a ground wire installation apparatus according to another embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a ground wire installation apparatus according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a layout diagram of an underground wire installation apparatus according to an embodiment of the present invention, and FIG. 2 is a layout diagram of an underground wire installation apparatus according to another embodiment of the present invention.

Referring to FIG. 1, an underground cable installation apparatus according to an embodiment of the present invention includes a manhole body 10, a trench body 20, and a cable room 30.

The manhole body 10 is generally embedded in the ground and collects rainwater such as rainwater and flows into a channel (not shown) buried in the ground. The manhole body 10 is connected to a power line 2 (Not shown) such as a power generation plant on the ground by taking out the electric wire 2 from the infiltrated or underground embedded waterproofing paper.

Of course, the manhole body 10 preferably has a manhole cover 12 to open and close the opened upper side.

In addition, it is preferable that the electric wire 2 in the waterproofing paper is waterproof so as to be resistant to water as it is embedded directly in the ground or inserted into a channel embedded in the ground. At this time, the manhole body 10 can be deformed into various shapes.

Particularly, the electric wire 2 of the waterproof paper buried in the ground through the manhole body 10 is connected to the electric room 4 of the power plant or the like. Accordingly, the rainwater flowing into the manhole body 10 flows along the electric wire 2 of the waterproof paper and can be supplied to the electric room 4. [ Therefore, it is preferable that the stormwater flowing along the electric wire 2 among the storm water or the waterproof material flowing into the manhole body 10 is stored in a separate storage space.

In one example, the storm that enters from the manhole body 10 is stored in the trench body 20. [

The trench body 20 is embedded in the ground to be connected to the manhole body 10.

That is, the trench body 20 and the manhole body 10 are connected to the composite connecting passage 40. The composite connection passage 40 guides the flow of the rainwater flowing into the manhole body 10 to the trench body 20 and the electric wires 2 of the waterproofing paper buried in the ground from the ground through the manhole body 10 Is inserted into the trench body 20, so that it has a function of 'composite'.

Of course, the complex connecting passage 40 is not limited to the diameter and the number.

Though the manhole body 10 may serve as the trench body 20, since the size of the manhole body 10 is standardized, there is a limit to the amount of storage of the excellentness. In addition, it is preferable that a separate trench body 20 is provided to store rainwater flowing along the electric wire 2 among the waterproofing paper embedded in the ground.

The trench body 20 can be applied in various shapes.

The composite connection passage 40 may be separately provided and connected to the end of the manhole body 10 and the trench body 20 or may be integrally formed with the manhole body 10 or the trench body 20 . For convenience, the composite connection passage 40 is separately provided and is shown as a pipe connected to the manhole body 10 and the trench body 20. The composite connection passage 40 may be connected to the manhole body 10 and the trench body 20 by various methods such as welding.

As a result, when the level of the rainwater flowing into the manhole body 10 reaches a predetermined level or more, the rainwater flows into the trench body 20 through the composite connection passage 40 and is stored. As a result, the storm does not flow into the cable room (30) and the electric room (4).

The composite connection passage 40 serves to supply the electric wire 2 of the waterproof paper supplied from the ground to the manhole body 10 to the trench body 20 together with the storm.

The cable room 30 is disposed adjacently to the trench body 20 or the manhole body 10 so as to collect only the electric wires 2 of the waterproofing paper installed through the manhole body 10 to supply the electricity to the electric room 4 .

The manhole body 10 is disposed on one side of the trench body 20 and the cable room 30 is disposed on the other side of the trench body 20. [

That is, the rainwater flowing through the manhole body 10 is stored in the trench body 20, and the electric wire 2 of the waterproofing paper supplied to the ground through the manhole body 10 passes through the trench body 20 to the cable room 30). Here, the cable room 30 is embedded in the ground.

In particular, although the trench body 20 may be of a closed type, it is preferable that the trench body 20 is formed so as to be openable for maintenance and maintenance. Therefore, it is preferable that the opened upper side of the trench body 20 is opened and closed by the trench cover 60. [

At this time, the trench cover 60 covers the upper side of the trench body 20 in various ways. Of course, the trench cover 60 is applicable in various shapes.

Further, the electric wire 2 in the waterproof paper is supplied to the cable room 30 at a position higher than the water level in the trench body 20.

That is, the electric wire 2 in the waterproof paper is moved to the cable room 30 through the electric wire connecting path 50 at a position higher than the water surface of the excellent stored in the trench body 20.

In other words, the cable room 30 and the trench body 20 are connected to the wire connection path 50. The cable connection path 50 connects the cable room 30 and the trench main body 20, which are located as close to the ground as possible. For convenience, the wire connection path 50 is a pipe and both sides are connected to the corresponding cable room 30 and the trench body 20 by welding or the like.

At this time, the trench main body 20 forms a wire connecting passage 50 at a position higher than the position of the composite connecting passage 40. Therefore, the electric wire 2 in the waterproof paper is inserted into the electric wire connecting passage 50 without being immersed in the rainwater after being supplied into the trench body 20 while being immersed in the rainwater. Therefore, the corresponding portion of the electric wire 2 in the waterproof paper which is not immersed in the inside of the trench body 20 drops off the droplets on the circumferential surface.

As a result, the electric wire 2 of the waterproof paper supplied to the cable room 30 through the wire connecting passage 50 is in a state in which the rainwater is removed from the circumferential surface.

Therefore, the rainwater does not flow into the electric room 4 through the electric wire 2 of the waterproof paper supplied from the cable room 30 to the electric room 4.

Particularly, the electric wire 2 among the waterproof sheets collected in the cable room 30 is arranged so as to be sagged or placed on the floor in the cable room 30 and then to be connected to the electric room 4 through the upper circumferential surface of the cable room 30. [ As the supply is made, the storm on the surface is dropped once more, so that the storm is prevented from flowing into the electricity chamber 4 as much as possible.

Here, the cable room 30 may be formed in a hermetic manner or may have a lid to open and close the upper side thereof.

On the other hand, when the stormwater flowing into the trench body 20 reaches a set water level or higher, it is preferable that the stormwater is automatically discharged to the outside automatically.

The trench main body 20 is provided with a first sensor member 72 for sensing the set level of the incoming storm and the trench main body 20 is provided with the first outflow pipe 74 for intermittently, 1 outflow pipe 74 has a first movable pump 76 that operates according to the signal of the first sensor member 72 and discharges the storm.

In other words, the trench body 20 has the first sensor member 72 therein. When the first sensor member 72 comes into contact with the rainwater flowing into the trench body 20, the first sensor member 72 senses the set water level of the rainwater.

In addition, the trench body 20 has a first outflow pipe 74, and the first outflow pipe 74 has a first movable pump 76.

Thus, when the first sensor member 72 senses the set water level of the rainwater, the first sensor member 72 transmits the corresponding signal to the first movable pump 76.

Then, the first movable pump 76 is operated, whereby the discharge of the trench body 20 is forced out through the first outflow pipe 74.

Here, the first outflow pipe 74 may have a separate valve for interrupting the flow of the rain, and may be flow-blocked by the first movable pump 76.

At this time, the first movable pump 76 may stop automatically when the self-set operation time is exceeded, or may automatically stop when the first set of sensor members 72 does not receive the set water level sensing signal. When the first sensor member 72 senses the highest water level and the lowest water level and detects the lowest water level, the first movable pump 76 may automatically stop.

As a result, the wire 2 of the stormwater and the waterproofing material flowing into the manhole body 10 is moved to the trench body 20 through the composite connecting passage 40. The storm inside the trench body 20 is stored and the electric wire 2 of the waterproof paper is moved to the cable room 30 through the wire connecting path 50 in a state in which the stormy water is removed by using the fallout. The electric wire 2 in the waterproof pads of the cable room 30 is supplied to the electric room 4 after removing most of the stained water by using the fall. At this time, the pore of the trench main body 20 is forcibly discharged to the outside at the time of supply over the set water level.

Therefore, the rainwater flowing into the manhole body 10 is prevented from being directly supplied to the electric room 4, and is prevented from being indirectly supplied to the electric room 4 through the electric wire 2 in the waterproofing.

Referring to FIG. 2, an underground cable installation apparatus according to another embodiment of the present invention includes a manhole body 10, a trench body 20, and a cable room 30.

At this time, the manhole body 10, the trench body 20, and the cable room 30 are the same as the above-described functions and are replaced with those described above.

The electric wire 2 of the waterproof paper supplied together with the trench body 20 moves to the cable room 30 beyond the upper edge of the trench body 20.

In particular, the trench body 20 forms an upper rim at a position higher than the position of the composite connecting passage 40. Therefore, the electric wire 2 of the waterproof paper is supplied to the inside of the trench main body 20 while being immersed in the rainwater, and then supplied to the cable room 30 without passing through the upper edge of the trench body. Therefore, the corresponding portion of the electric wire 2 in the waterproof paper which is not immersed in the inside of the trench body 20 drops off the droplets on the circumferential surface.

As a result, the electric wire 2 of the waterproof paper supplied to the cable room 30 is in a state of removing the rainwater on the circumferential surface.

At this time, the electric wire 2 in the waterproof paper is exposed to the ground surface because it is supplied to the cable room 30 beyond the upper edge of the trench body 20.

Thus, the trench body 20 and the cable room 30 are covered by the trench cover 60 in a state in which the upper side is opened. Here, the central portion of the trench cover 60 is supported on the edge of the opposing trench body 20 and on the edge of the cable room 30. Accordingly, the electric wire 2 in the waterproof paper is covered by the trench cover 60 while being placed on the edge of the opposite side of the trench body 20 and the edge of the cable room 30, thereby preventing external exposure.

On the other hand, when the stormwater flowing into the trench body 20 reaches a set water level or higher, it is preferable that the stormwater is automatically discharged to the outside.

The trench body 20 is provided with a first outlet pipe 74 to be inserted into the cable room 30 and the cable room 30 is connected to the first outlet pipe 74 through a predetermined set water level And the cable room 30 has a second movable pump 86 that operates according to the signal of the second sensor member 82 and discharges the storm.

In other words, when the height of the inside of the trench body 20 becomes equal to or higher than the set water level, the water level exceeding the set water level is discharged into the cable room 30 through the first outflow pipe 74.

The reason why the first outflow pipe 74 extends from the trench body 20 to the inside of the cable room 30 is to facilitate the installation workability of the first outflow pipe 74.

Particularly, the first outflow pipe 74 is provided with the intermittent valve 85 which is automatically opened or closed by the sensing of the first sensor member 72 of the trench body 20 described above or manually opened and closed.

In addition, the cable room 30 connects the second outflow pipe 84 to the lower circumferential surface, and the second outflow pipe 84 has the second movable pump 86.

Therefore, when the second sensor member 82 of the cable room 30 senses the set water level of the storm, the signal is transmitted to the second movable pump 86.

Then, the second movable pump 86 is actuated, whereby the rainwater of the cable room 30 is forcibly discharged to the outside through the second outflow pipe 84.

Here, the second outflow pipe 84 may have a separate valve for interrupting the flow of the rain, and may be flow-blocked by the second movable pump 86.

At this time, the second movable pump 86 may stop automatically when the self-set operation time is exceeded, or automatically stop when the second set sensor member 82 does not receive the set water level sensing signal. When the second sensor member 82 senses the highest water level and the lowest water level, respectively, and the lowest water level is sensed, the second control valve 86 may be automatically stopped to close the shutoff valve 85.

As a result, the wire 2 of the stormwater and the waterproofing material flowing into the manhole body 10 is moved to the trench body 20 through the composite connecting passage 40. The trench body 20 is stored in the cable room 30 through the upper rim of the trench body 20 and the cable room 30 in a state in which the electric wire 2 of the waterproof paper is removed by using the fall- . The electric wire 2 in the waterproof pads of the cable room 30 is supplied to the electric room 4 after removing most of the stained water by using the fall. At this time, the storm of the cable room (30) is forcibly discharged to the outside when it is supplied over the set water level.

Therefore, the rainwater flowing into the manhole body 10 is prevented from being directly supplied to the electric room 4, and is prevented from being indirectly supplied to the electric room 4 through the electric wire 2 in the waterproofing.

The reference numerals not described are replaced with those described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the true scope of the present invention should be determined by the following claims.

2: Water in the water line 4: Electric room
10: Manhole body 12: Manhole cover
20: trench body 30: cable room
40: complex connection passage 50: wire connection passage
60: trench cover 72, 82: first and second sensor members
74, 84: first and second outflow pipes 76, 86: first and second movable pumps

Claims (7)

A manhole body embedded in the ground, the manhole body inserting a wire of the waterproofing paper from the ground;
A trench main body buried in the ground to be connected to the manhole main body and storing rainwater flowing through the manhole main body; And
And a cable room disposed adjacent to the trench body or the manhole body for collecting only the wires of the waterproofing paper provided under the manhole body through the manhole body for supplying the electricity to the electric room.
The method according to claim 1,
Wherein the manhole main body and the trench main body are connected to each other through a complex connection path to allow movement of the wire and the rain in the waterproof paper toward the trench body.
3. The method according to claim 1 or 2,
Wherein the cable of the waterproof paper installed in the ground through the manhole body moves to the cable room through a wire connecting path at a position higher than the water surface of the excellent stored in the trench body.
3. The method according to claim 1 or 2,
Wherein the cable of the waterproof paper installed in the ground through the manhole body moves to the cable room beyond the upper edge of the trench main body.
5. The method of claim 4,
Wherein the trench body and the cable room, which are opened for movement of electric wires among the waterproof sheets, are covered by the trench cover.
3. The method according to claim 1 or 2,
The trench body having a first sensor member for sensing a set level of the incoming storm;
Wherein the trench body is provided with a first outflow pipe intermittently;
Wherein the first outflow pipe includes a first movable pump that operates according to a signal of the first sensor member and discharges the rainwater.
3. The method according to claim 1 or 2,
The trench body having a first outflow pipe inserted into the cable room;
Said cable room having a second sensor member for sensing a set level of stormwater flowing through said first outflow line;
Wherein the cable room includes a second movable pump that operates according to a signal of the second sensor member and discharges rainwater.

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