KR102255696B1 - Connection bracket of underground electronic line of power distribution - Google Patents

Abstract

The present invention provides a connection bracket of an underground electronic line of a power distribution. The connection bracket of a underground electronic line of a power distribution includes: an underground tunnel buried underground and formed with an internal space; a seating unit disposed inside the underground tunnel, and seated thereon with a underground track; a connecting rod connected to a lower end of the seating unit and having a predetermined length along the lower side; a water detection sensor installed at a lower end of the connecting rod to detect water formed by water flowing into the internal space of the underground tunnel; an elevating unit for elevating the seating unit; and a control unit for raising the seating unit by using the elevating unit to a set height where no water is detected, when water is detected by the water detection sensor.

Description

CONNECTION BRACKET OF UNDERGROUND ELECTRONIC LINE OF POWER DISTRIBUTION

The present invention relates to an underground cable connection bracket for distribution, and more specifically, when a water level sensor is installed in a certain length below a seating part supporting an underground line in the underground tunnel to increase the water level in the underground tunnel. It relates to an underground electric wire connection bracket for distribution that can prevent the underground line from getting wet or impregnated by always forming the seating portion at a constant height apart from the water surface.

Usually, electricity used in each home, office, and large-scale factory is supplied with electricity through substations installed in each region.These substations are installed for the purpose of transforming voltage or current and distributing power, The power produced by the power plant is sent to customers through transmission lines.

The substation is to be installed on the ground. In the case of such a substation, it is necessary to transfer high-voltage current. Most of the high-voltage cables are exposed to the outside, and the high-voltage cables exposed to the outside cause a short circuit and short circuit due to external interference. There is a problem such as damaging the surrounding landscape due to the easy and cluttered high-voltage wires, so high-voltage wires are installed in the ground or underground.

When high-voltage wires are buried in the ground, they are largely classified into two categories. One is that a concrete tunnel is buried in the ground, and a shelf is installed inside the tunnel so that the underground wire can be placed, and the underground wire is fixed to the upper side of the shelf. One thing that differs from the installation method is to bury a protective pipe made of concrete or synthetic resin in the ground and place the underground electric wire inside the buried protective pipe for storage.

In both of these methods, an underground electric wire is installed in a space separated from external contact in the ground. In case of a concentrated heavy rain or flood, sudden rainwater may flow in, and the inflow of water due to damage to the underground tunnel or protective pipe is not uniform. Can be caused by

If the water inflow is not drained smoothly due to the environment separated from external contact, the underground electric wire may come into contact with the water, and in severe cases, the underground electric wire may be submerged in the water.

In the above case, there is a problem that a short circuit may occur due to the contact of the electric wire and water, and a risk of electric shock to a person may occur.

In the past, in order to solve this problem, in Korean Patent Registration No. 10-1039358 (2011.05.31.), when a large amount of water flows into the underground tunnel, the plate holding the underground cable is moved in response to the change in the water level in the underground tunnel. It is to prevent direct contact between the underground electric wire and the water, but conventionally, the plate is only raised using a buoyant body, and if the actual water level in the underground tunnel reaches the highest point or higher, the underground electric wire is exposed to water and eventually a short circuit and a short circuit. There is still a problem of safety accidents, and there is also a problem in which the plate can actually get wet in the rising water if a buoyant body is used.

Therefore, in order to solve the above problems, it is an object of the present invention to install a water level sensor at a certain length below the seating portion that supports the underground line inside the underground tunnel. It is to provide an underground cable connection bracket for distribution that can prevent the underground line from getting wet or impregnated by always forming a certain height apart from the water surface.

In addition, another object of the present invention is to prevent the water level from temporarily exceeding the seating portion by forming a space at the upper end of the seating portion and forming an order wall at the edge of the space so that the water level is first filled in the seating portion. It is to provide an underground cable connection bracket for distribution that can prevent the underground line from being impregnated immediately by installing a drainage tube connecting the negative space and the outside of the underground tunnel to force the water filled in the seating area to be drained.

In addition, another object of the present invention is to form an evacuation space at the top of an underground tunnel, and when a designated dangerous water level is achieved, the seating part is forced to escape to the evacuation space and the evacuation space is airtight to prevent the underground line from being impregnated. It is to provide an underground cable connection bracket for distribution.

In order to achieve the above object, the present invention provides an underground electric wire connection bracket for distribution.

The underground electric wire connection bracket for distribution is buried in the ground, and an underground tunnel in which an inner space is formed;

A seating portion disposed inside the underground tunnel and on which an underground track is seated;

A connecting rod connected to the lower end of the seating portion and having a predetermined length along the lower side;

A water detection sensor installed at the bottom of the connecting rod and detecting water formed by water flowing into the inner space of the underground tunnel;

An elevating portion for elevating the seating portion; And,

When water is detected by the water detection sensor, a control unit for raising the seating unit using the elevation unit to a set height at which no water is detected is included.

Here, the connecting rod,

A tube body having a lower opening, a screw hole formed therein, and an upper end connected to the lower end of the seating portion,

It is screwed into the screw hole of the tube body, has a certain length, and has a screw bar on which the water detection sensor is installed at the lower end,

It is preferable that the height of the water detection sensor is variably adjusted according to the rotation of the screw bar.

And the seating part,

The body of the seat on the plate,

It has an edge body protruding upward from the upper edge of the seating portion body,

An accommodation space is formed through an upper end of the frame body and the seating part body,

A support extending upward from the upper end of the seating unit body,

It is preferable to have a grip member formed in a U shape on the upper end of the support and on which the underground line is seated.

In addition, in the frame body,

The drain tube is connected,

One end of the drain tube is exposed to the accommodation space through the frame body,

The other end of the drain tube is exposed to the outside of the underground tunnel,

It is preferable that a drain pump is provided on the drain tube for forcibly draining water filled in the accommodation space to the outside through the control of the controller.

In particular, on the ceiling of the inner space of the underground tunnel,

A receiving groove is formed,

An electromagnet is installed on the ceiling of the receiving groove,

The electromagnet is magnetized by receiving a current from a current provider,

At the upper end of the underground track,

A cover member made of metal is formed.

In addition, on the ceiling of the inner space of the underground tunnel,

A distance sensor for measuring the distance to the top surface of the seating portion is installed,

When the measured distance reaches a preset reference distance, the control unit is configured to magnetize the electromagnet using the current provider to be attached to the cover member through magnetic force,

The cover member is magnetically attached to the electromagnet,

The cover member locates the underground line in the receiving groove.

In addition, on the ceiling of the inner space of the underground tunnel,

A door protruding in a sliding manner is installed,

The door protrudes by driving of a linear motor,

The linear motor is driven by the control of the controller,

Sealing is installed on the edge of the door.

As described above, the name of the present invention is to provide a "underground cable connection bracket for distribution", so that the present invention provides a water level sensor under a certain length at the bottom of the seating part that supports the underground line inside the underground tunnel. In case the water level rises, it has the effect of preventing the underground line from getting wet or impregnated by always forming the seating part at a certain height apart from the water surface.

In addition, the present invention forms a space at the upper end of the seating portion, and forms a water-order wall at the edge of the space so that the water level is first filled in the inside of the seating portion, thereby preventing the water level from temporarily exceeding the seating portion, and A drainage tube connecting the outside of the underground tunnel is installed to forcibly drain the water filled in the seating area, thereby preventing the underground line from being impregnated immediately.

In addition, the present invention has an effect of forming an evacuation space at the top of an underground tunnel, and forcibly evacuating the seating portion to the evacuation space when a designated dangerous water level is achieved, and preventing the underground line from being impregnated by sealing the escape space. .

1 is a view showing the configuration of the underground cable connection bracket for distribution of the present invention. 2 is a view showing an example in which a drain tube according to the present invention is installed.
3 and 4 are views showing an example in which an underground line according to the present invention is evacuated to a receiving groove.

The name of the present invention is to provide a "underground wire connection bracket for distribution", so that specific contents are described so that the person skilled in the art can easily understand, separate descriptions that can be sufficiently inferred are omitted, and examples and drawings are described if necessary. In addition, terms defined in the present specification and claims are not limitedly interpreted, and may vary according to an operator's intention or custom, and should be interpreted as meanings and concepts consistent with the technical idea of the present invention.

With reference to the drawings according to the present invention will be described the underground cable connection bracket for distribution of the present invention.

1 is a view showing the configuration of the underground cable connection bracket for distribution of the present invention. 2 is a view showing an example in which a drain tube according to the present invention is installed.

Referring to Figures 1 and 2, the underground power cable connection bracket for distribution of the present invention is buried in the ground and is disposed inside the underground tunnel 100 in which an inner space is formed, and the underground tunnel 100, and an underground line ( 10) a seating portion 200 on which it is mounted, a connecting rod 300 connected to the lower end of the seating portion 200 and having a predetermined length along the lower side, and installed at the lower end of the connecting rod 300, and the underground tunnel A water detection sensor 400 for detecting water formed by water flowing into the inner space of 100, an elevating part 500 for raising and lowering the seating part 200, and the water detection sensor 400 When water is detected by the water, it includes a control unit 700 that raises the seating unit 200 to a set height at which no water is detected.

Here, the connecting rod 300 has a lower opening, a screw hole 311 formed therein, a pipe body 310 having an upper end connected to the lower end of the seating part 200, and the pipe body 310 It is screwed into the screw hole 311 of the, has a predetermined length, and includes a screw bar 320 on which the water detection sensor 400 is installed at the lower end.

The height of the water detection sensor 400 is variably adjusted according to the rotation of the screw bar 320.

In addition, the seating portion 200 includes a seating portion body 210 on a plate, and an edge body 220 protruding upward from an upper edge of the seating portion body 210.

An accommodation space is formed through the upper end of the frame body 220 and the seat body 210.

A support 230 extending upward from the upper end of the seat body 210, and a grip member 240 formed in a U shape at the upper end of the support 230 to mount the underground track 10 do.

In addition, a drain tube 240 is connected to the frame body 220.

One end of the drain tube 240 is exposed to the accommodation space through the frame body 220.

The other end of the drain tube 240 is exposed to the outside of the underground tunnel 100.

On the drain tube 240, a drain pump 250 for forcibly draining water filled in the accommodation space to the outside through the control of the controller 700 is provided.

3 and 4 are views showing an example in which an underground line according to the present invention is evacuated to a receiving groove.

Referring to FIGS. 3 and 4, a receiving groove 110 is formed in the ceiling of the inner space of the underground tunnel 100.

An electromagnet 120 is installed on the ceiling of the receiving groove 110.

The electromagnet 120 is magnetized by receiving current from the current provider 130.

A cover member 20 made of metal is formed at the upper end of the underground line 10.

In addition, a distance sensor 600 is installed on the ceiling of the inner space of the underground tunnel 100 to measure the distance to the top surface of the seating part 200.

When the measured distance reaches a preset reference distance, the controller 700 magnetizes the electromagnet 120 using the current provider 130 and controls the cover member 20 to be attached through a magnetic force. do,

The cover member 20 is magnetically attached to the electromagnet 120, and the cover member 20 positions the underground line 10 in the receiving groove 110.

Here, a semicircular fitting protrusion 21 is formed at the upper end of the cover member 20, and a fitting groove 121 into which the fitting protrusion 21 is fitted is formed at the lower end of the electromagnet 120.

In addition, although not shown in the drawings, a door protruding in a sliding manner is installed on the ceiling of the inner space of the underground tunnel 100.

The door protrudes by driving a linear motor, the linear motor is driven by the control of the controller 700, and a seal is installed on the edge of the door.

According to the above configuration and action, the present invention provides a water level sensor at a certain length below the seating portion supporting the underground line in the underground tunnel, so that when the water level rises inside the underground tunnel, the seating portion is always separated from the water surface at a constant distance. By forming a height, it has the effect of preventing the underground track from getting wet or impregnated.

In addition, the present invention forms a space at the upper end of the seating portion, and forms a water-order wall at the edge of the space so that the water level is first filled in the inside of the seating portion, thereby preventing the water level from temporarily exceeding the seating portion, and A drainage tube connecting the outside of the underground tunnel is installed to forcibly drain the water filled in the seating area, thereby preventing the underground line from being impregnated immediately.

In addition, the present invention has an effect of forming an evacuation space at the top of an underground tunnel, and forcibly evacuating the seating portion to the evacuation space when a designated dangerous water level is achieved, and preventing the underground line from being impregnated by sealing the escape space. .

As described above, although the present invention has been described by limited embodiments and drawings, the present invention is not limited thereto, and the technology to which the present invention pertains is within the scope of equality of the technical spirit of the invention and the claims to be described below. Of course, various modifications and variations are possible.

100: underground tunnel
200: seat
300: connecting rod
400: water detection sensor
500: elevating part
600: distance sensor
700: control unit

Claims (4)

An underground tunnel buried in the ground and forming an inner space;
A seating portion disposed inside the underground tunnel and on which an underground track is seated;
A connecting rod connected to the lower end of the seating portion and having a predetermined length along the lower side;
A water detection sensor installed at the bottom of the connecting rod and detecting water formed by water flowing into the inner space of the underground tunnel;
An elevating portion for elevating the seating portion; And,
When water is detected by the water detection sensor, a control unit for raising the seating unit using the lifting unit to a set height at which no water is detected,
The connecting rod has a lower opening, a screw hole formed therein, and a pipe body having an upper end connected to the lower end of the seating portion, and screwed into the screw hole of the pipe body, forming a predetermined length, and having the water at the lower end. It has a screw bar on which a detection sensor is installed, and the height of the water detection sensor is variably adjusted according to the rotation of the screw bar,
The seating portion includes a plate-shaped seating portion body and an edge body protruding upward from an upper edge of the seating portion body, and an accommodation space is formed through the edge body and the upper end of the seating portion body, and the seating portion A support extending upward from the upper end of the sub-body, and a grip member formed in a U shape at the upper end of the support to seat the underground line,
To the frame body, a drain tube is connected,
One end of the drain tube is exposed to the accommodation space through the frame body, and the other end of the drain tube is exposed to the outside of the underground tunnel, and on the drain tube, filled in the accommodation space through the control of the control unit. Equipped with a drain pump for forcibly draining water to the outside,
On the ceiling of the inner space of the underground tunnel,
A receiving groove is formed,
An electromagnet is installed on the ceiling of the receiving groove,
The electromagnet is magnetized by receiving a current from a current provider,
At the upper end of the underground track,
A cover member formed of metal is formed,
On the ceiling of the inner space of the underground tunnel,
A distance sensor for measuring the distance to the top surface of the seating portion is installed,
When the measured distance reaches a preset reference distance, the control unit is configured to magnetize the electromagnet using the current provider to be attached to the cover member through magnetic force,
The cover member is magnetically attached to the electromagnet,
The cover member locates the underground line in the receiving groove,
Underground cable connection bracket for distribution. The method according to claim 1,
On the ceiling of the inner space of the underground tunnel,
A door protruding in a sliding manner is installed,
The door protrudes by driving of a linear motor,
The linear motor is driven by the control of the controller,
Sealing is installed on the rim of the door,
Underground cable connection bracket for distribution. delete delete

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