KR102584125B1 - Electric manhole structure - Google Patents

Abstract

The present invention is placed in the ground and includes a manhole body in which electric wires are placed; A vacuum forming body installed around the manhole body and receiving vacuum to form a certain vacuum; A shock detector installed in the manhole body and measuring external shock; And, when the external shock measured through the shock detector reaches a dangerous shock corresponding to a pre-stored earthquake, a controller for forming a certain vacuum in the vacuum forming body for an apartment complex with earthquake resistance and electric leakage prevention functions. An electric manhole structure is provided.

Description

Electric manhole structure for apartment complexes with earthquake resistance and leakage prevention functions {ELECTRIC MANHOLE STRUCTURE}

The present invention relates to an electric manhole structure for an apartment complex with earthquake resistance and leakage prevention functions. More specifically, when an external shock corresponding to an earthquake occurs, an impact prevention layer that can absorb vibration is immediately formed on the outer periphery of the manhole body. In addition, if an electrical signal abnormality occurs inside the protective tube surrounding the wire, insulating material is immediately filled to immediately prevent electrical accidents due to short circuit, and when the electrical abnormality is resolved, the insulating material is recovered so that it can be used again. It relates to an electric manhole structure for an apartment complex that has earthquake-proof and electric leakage prevention functions.

Typically, a manhole is an underground structure installed in the middle of this pipe to perform construction work such as cable insertion, withdrawal, and connection, as well as inspection and other repair work. It is installed at a certain distance or at the end of the apartment complex where the line is installed.

A manhole is buried underground and consists of a body made of concrete with a space inside for wiring high-voltage cables, etc., and a manhole cover that opens and closes the upper opening of this body.

Since manholes are usually installed on roadways or sidewalks, manhole covers have been made of cast iron to withstand the load of vehicles, etc. Therefore, there is a problem in that a short circuit occurs in a power line such as a high-voltage cable installed inside a manhole, and on rainy days, electricity passes through the cast iron manhole cover, resulting in the death of pedestrians by electric shock several times.

To solve these shortcomings, a technology to make manhole covers from materials that do not conduct electricity has been proposed.

In addition, since the electric manhole structure of the prior art is structured so that the cables are arranged through the center of the inner space of the electric manhole, the cables are basically complicatedly entangled with each other, making it difficult to check the cables during work such as electrical work. When workers enter the electric manhole for electrical work, etc., the cables are obstructed, which not only makes it difficult to work, but there is also a risk of damaging the cables by stepping on them.

Republic of Korea Patent No. 10-0647519 (2006.11.13)

The present invention aims to solve the above problems,

The present invention immediately forms an impact prevention layer capable of absorbing vibration on the outer periphery of the manhole body when an external shock equivalent to an earthquake occurs, and also immediately forms an insulating material when an electrical signal abnormality occurs inside the protection pipe surrounding the wire. The purpose is to provide an electric manhole structure for apartment complexes with earthquake-proof and short-circuit prevention functions that can immediately prevent electrical accidents due to electric leakage by filling and recover the insulating material once the electrical abnormality is resolved so that it can be used again. do.

In addition, the present invention buries a flexible support pipe on the ground and underground within the complex and connects it to the manhole body, and when an earthquake occurs, the support lines located inside the support pipe and connected to the manhole body are wound or unwound to maintain the position of the manhole body. Another purpose is to provide an electric manhole structure for an apartment complex that can prevent and monitor installation posture deformation due to earthquakes by preventing distortion.

The objects of the present invention are not limited to the objects mentioned above, and other objects and advantages of the present invention that are not mentioned can be understood by the following description and will be more clearly understood by the examples of the present invention. Additionally, it will be readily apparent that the objects and advantages of the present invention can be realized by the means and combinations thereof indicated in the patent claims.

In order to achieve the above objectives, the present invention

A manhole body placed underground and inside which electric wires are placed;

A vacuum forming body installed around the manhole body and receiving vacuum to form a certain vacuum;

A shock detector installed in the manhole body and measuring external shock; and,

When the external shock measured through the shock detector reaches a dangerous shock corresponding to a pre-stored earthquake, an electric manhole for an apartment complex having an earthquake-proof and short-circuit prevention function and a controller that forms a certain vacuum in the vacuum forming body. Provides a structure.

The vacuum forming body according to the present invention,

Corrugated pipes in which the vacuum is formed,

A shock absorbing plate connected to the ends of the corrugated pipes,

It includes a vacuum provider that supplies vacuum to the inside of each of the corrugated pipes,

The circumference of each of the corrugated pipes is,

Connected around each side of the manhole body,

Around each side of the manhole body,

Guide pipes that guide the expansion and contraction of the corrugated pipes are connected to each other,

The guide pipe may be composed of multi-stage stretchable unit pipes. Springs may be installed between unit pipes to enable elasticity and expansion.

One end of each of the guide pipes is supported around the manhole body, and the other end is installed to be connected to a shock absorber.

The shock absorber according to the present invention,

It is characterized by being formed as a wave or uneven plate.

In the manhole body according to the present invention,

An insulating receiving pipe in which the wire is accommodated is installed,

A current sensor is installed to measure the current value in the wire and transmit the measured current value to the controller,

The receiving pipe is connected to an insulating material providing part,

The insulating material providing unit,

It includes a supply line, a recovery line, a supply pump installed in the supply line, a recovery pump installed in the recovery line, and an insulating material supplier that supplies insulating material to the supply line,

The end of the supply line is connected to the inside of the receiving pipe, and the recovery line is connected to the inside of the receiving pipe and the insulating material supplier,

When the measured current value reaches a preset ideal current value, the controller supplies the insulating material to the inside of the receiving tube using the insulating material supplier and the supply pump, and the measured current value reaches the preset ideal current value. When the current value is less than the ideal current value, the recovery pump is used to recover the insulating material from the inside of the receiving pipe to the insulating material supplier through the recovery line.

In particular, an insulating material filling layer filled with an insulating material is formed inside the shock absorber,

In the shock absorber,

Sprayers are provided to discharge the insulating material filled in the insulating material filling layer to the outside of the shock absorbing plate,

The controller is,

When the measured current value reaches the preset ideal current value,

The insulating material filled in the insulating material filling layer is discharged to the outside of the shock absorbing plate using the sprayers.

In addition, the manhole body,

It is placed inside an installation groove formed underground in an apartment complex,

On the inner periphery of the installation groove,

An elastic layer having elasticity, a fixed layer having a certain strength are formed outside the elastic layer, and another elastic layer having a certain elasticity is formed outside the fixed layer.

In addition, the shock absorber is provided with a plurality of elastic rollers,

A plurality of elastic rollers are supported for rolling around the inner circumference of the installation groove.

Additionally, inside the manhole body,

It is formed in multiple layers, with multiple vacuum layers forming a vacuum inside,

Each of the plurality of vacuum layers is connected to vacuum lines,

Each of the vacuum lines is connected to an additional vacuum provider capable of receiving vacuum,

The controller is,

Vacuum is provided and adjusted to the plurality of vacuum layers through the vacuum lines using the vacuum provider so that it increases at a preset rate according to the sensed impact force.

In addition, each of the plurality of vacuum layers,

Vacuum protrusion grooves in the shape of protrusions protruding on both sides are further formed.

In addition, the plurality of vacuum layers,

Characterized in that they are connected to each other through lattice-shaped auxiliary vacuum lines.

A metal layer having a certain thickness is formed on the inner surfaces of the plurality of vacuum layers and the inner surfaces of the auxiliary vacuum lines.

Through the above tasks, the present invention can achieve the following effects.

First, the present invention immediately forms an impact prevention layer capable of absorbing vibration on the outer periphery of the manhole body when an external shock corresponding to an earthquake occurs, and also forms an insulating material when an electrical signal abnormality occurs inside the protection pipe surrounding the wire. Immediate charging prevents electrical accidents due to short circuits, and when the electrical abnormality is resolved, the insulating material can be recovered and used again.

Second, the present invention buries a flexible support pipe on the ground and underground within the complex and connects it to the manhole body, and when an earthquake occurs, the support lines located inside the support pipe and connected to the manhole body are wound or unwound to maintain the position of the manhole body. It is possible to prevent distortion of the installation posture due to earthquakes.

In addition to the above-described effects, specific effects of the present invention are described below while explaining specific details for carrying out the invention.

Figure 1 illustrates an electric manhole structure for an apartment complex with earthquake resistance and leakage prevention functions according to the present invention.
Figure 2 is a diagram showing a manhole according to the present invention.
Figure 3 is a diagram showing a manhole structure to which an electric wire according to the present invention is accommodated in a receiving pipe.
Figure 4 is a diagram showing a shock absorber according to the present invention.
Figure 5 is a diagram showing an example of an installation groove according to the present invention forming a multi-layer shape.
Figure 6 is a diagram showing an example in which the manhole body according to the present invention is formed of a multi-layer vacuum layer.

The above-mentioned objects, features, and advantages will be described in detail later with reference to the attached drawings, so that those skilled in the art will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the attached drawings. In the drawings, identical reference numerals are used to indicate identical or similar components.

Hereinafter, the “top (or bottom)” of a component or the arrangement of any component on the “top (or bottom)” of a component means that any component is placed in contact with the top (or bottom) of the component. Additionally, it may mean that other components may be interposed between the component and any component disposed on (or under) the component.

Additionally, when a component is described as being “connected,” “coupled,” or “connected” to another component, the components may be directly connected or connected to each other, but the other component is “interposed” between each component. It should be understood that “or, each component may be “connected,” “combined,” or “connected” through other components.

Hereinafter, with reference to the accompanying drawings, an electric manhole structure for an apartment complex with earthquake-proof and electric leakage prevention functions according to the present invention will be described.

Figure 1 illustrates an electric manhole structure for an apartment complex with earthquake resistance and leakage prevention functions according to the present invention. Figure 2 is a diagram showing a manhole according to the present invention.

Referring to Figure 1, an installation groove 10 in which the manhole body 1200 is installed is formed in the ground within the complex.

The electric manhole structure for an apartment complex with earthquake resistance and electric leakage prevention functions of the present invention includes a manhole body 100 disposed in an installation groove 10 in the ground and with electric wires disposed therein, and the manhole body 100. A vacuum forming body 200 installed on the periphery and receiving vacuum to form a certain vacuum, a shock detector 300 installed on the manhole body 100 and measuring external shock, and the shock detector 300 ) includes a controller 400 that forms a certain vacuum in the vacuum forming body 200 when the external shock measured through reaches a dangerous shock corresponding to a pre-stored earthquake.

The vacuum forming body 200 according to the present invention includes corrugated pipes 210 in which the vacuum is formed, a shock absorbing plate 220 connected to the end of the corrugated pipes 210, and the corrugated pipes 210. It includes a vacuum provider 230 that supplies vacuum to each interior.

The circumference of each of the corrugated pipes 230 is connected to the circumference of each side of the manhole body 100.

Guide pipes 240 that guide the expansion and contraction of the corrugated pipes 210 are connected to each side of the manhole body 100. The guide pipe 240 may be composed of multi-stage stretchable unit pipes. Springs may be installed between unit pipes to enable elasticity and expansion.

One end of each of the guide pipes 240 is supported around the manhole body 100, and the other end is installed to be connected to the shock absorption plate 220.

The shock absorbing plate 220 according to the present invention is formed as a plate with a wave or concave-convex shape.

Through holes 100 are formed in the manhole body 100.

A rotating shaft 91 and a fixing tube 90 that is rotated by the rotating shaft 91 and through which the electric wire 50 is fixed are disposed in the through hole 110.

The fixing tube 90 is rotatable by a rotating shaft 91.

Cover corrugated pipes 80 are installed on the outer and inner surfaces of the manhole body on the outer and inner sides of each of the through holes 110. The wire 50 penetrates the cover corrugated pipe 80, and the outer circumference of the wire 50 and the portion where the cover corrugated pipe 80 penetrates are bonded to maintain airtightness. The through hole 110 can be sealed by cover corrugated pipes 80 disposed on both sides.

Figure 3 is a diagram showing a manhole structure to which an electric wire according to the present invention is accommodated in a receiving pipe.

Referring to FIG. 3, the manhole body 100 according to the present invention is provided with an insulating receiving pipe 60 in which the electric wire 50 is accommodated.

A current sensor 410 is installed to measure the current value in the wire 10 and transmit the measured current value to the controller 400.

The receiving tube 60 is connected to the insulating material providing part 500.

The insulating material provider 500 includes a supply line 510, a recovery line 520, a supply pump 530 installed in the supply line 510, and a recovery line 520 installed in the recovery line 520. It includes a pump 540 and an insulating material supplier 550 that supplies insulating material to the supply line 510.

The end of the supply line 510 is connected to the inside of the receiving pipe 60, and the recovery line 530 is connected to the inside of the receiving pipe 60 and the insulating material supplier 540.

When the measured current value reaches a preset ideal current value, the controller 400 uses the insulating material supplier 540 and the supply pump 530 to inject the insulating material into the inside of the receiving pipe 60. When the measured current value is less than the preset ideal current value, the insulating material is transferred from the inside of the receiving pipe 60 through the recovery line 540 using the recovery pump 540. It is recovered by the insulating material supplier 550.

Additionally, a cover member 140 is disposed on the top of the manhole body 100. An insulating border 150 made of an insulating material is formed around the cover member 140.

The upper edge of the manhole body 100 is formed with a downward sloping surface. A groove is formed at the bottom of the cover member 140, and another inclined surface that is in inclined contact with the inclined surface is formed on the inner edge of the groove so that the cover member 140 can be in close contact.

And a fixture 120 is installed on the side wall of the inner space of the manhole body 100. A lifting cylinder 130 having a shaft 131 that is raised and lowered is installed at the top of the fixture 120. The lifting cylinder 130 elevates the shaft 131 under the control of the controller 400.

The controller 400 uses the lifting cylinder 130 to lift and lower the shaft 131 to raise and lower the cover member 140, thereby opening and closing the top of the manhole body 100 using the cover member 140. there is.

Figure 4 is a diagram showing a shock absorber according to the present invention.

Referring to FIG. 4, an insulating material filling layer 260 is formed inside the shock absorbing plate 220 with an insulating material.

The shock absorbing plate 260 is provided with sprayers 270 that discharge the insulating material filled in the insulating material filling layer 260 to the outside of the shock absorbing plate 220.

When the measured current value reaches a preset ideal current value, the controller 400 uses the sprayers 270 to inject the insulating material filled in the insulating material filling layer 260 into the shock absorber plate 220. discharged to the outside of.

The discharged insulating material may fill the space between the interior of the installation groove 10 and the shock absorbing plate 220.

Figure 5 is a diagram showing an example of an installation groove according to the present invention forming a multi-layer shape.

Referring to FIG. 5, the manhole body 100 is disposed inside the installation groove 10 formed in the ground within an apartment complex.

An elastic layer 11 having elasticity is formed on the inner periphery of the installation groove 10, and a fixing layer 12 having a certain strength is formed on the outside of the elastic layer 11, and on the outside of the fixing layer 12. Another elastic layer 13 having a certain elasticity is formed.

Additionally, the shock absorption plate 220 is provided with a plurality of elastic rollers 221.

A plurality of elastic rollers 221 may be supported by rolling around the inner circumference of the installation groove 10.

Even when the manhole body 100 moves due to an earthquake, the elastic rollers 221 roll along the inner wall of the installation groove 10, so vibration can be smoothly absorbed.

Figure 6 is a diagram showing an example in which the manhole body according to the present invention is formed of a multi-layer vacuum layer.

Referring to Figure 6, inside the manhole body 100, a plurality of vacuum layers 170 are formed in multiple layers and a vacuum is formed inside.

Each of the plurality of vacuum layers 170 is connected to vacuum lines 171.

Each of the vacuum lines 171 is connected to an additional vacuum provider 180 that can receive vacuum.

The controller 400 applies vacuum to the plurality of vacuum layers 170 through the vacuum lines 171 using the additional vacuum provider 180 to increase at a preset rate according to the sensed impact force. Provide and control.

In addition, each of the plurality of vacuum layers 170 is further formed with protrusion-shaped vacuum protrusion grooves 172 protruding on both sides.

Additionally, the plurality of vacuum layers 170 are connected to each other through grid-shaped auxiliary vacuum lines 173.

Additionally, a metal layer (not shown) having a certain thickness is formed on the inner surfaces of the plurality of vacuum layers 170 and the inner surfaces of the auxiliary vacuum lines 173.

Accordingly, when an external shock corresponding to an earthquake occurs due to the configurations of the present invention described above, an impact prevention layer capable of absorbing vibration is immediately formed on the outer periphery of the manhole body, and at the same time, electricity is generated inside the protection tube surrounding the wire. When a signal abnormality occurs, the insulating material is immediately filled to immediately prevent electrical accidents due to short circuit, and when the electrical abnormality is resolved, the insulating material can be recovered and used again.

In addition, the present invention buries a flexible support pipe on the ground and underground within the complex and connects it to the manhole body, and when an earthquake occurs, the support lines located inside the support pipe and connected to the manhole body are wound or unwound to maintain the position of the manhole body. It is possible to prevent distortion of the installation posture due to earthquakes.

The above-described present invention may be subject to various substitutions, modifications, and changes without departing from the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It is not limited by .

100: Manhole body
200: vacuum former
300: Shock sensor
400: controller

Claims (4)

A manhole body placed underground and inside which electric wires are placed;
A vacuum forming body installed around the manhole body and receiving vacuum to form a certain vacuum;
A shock detector installed in the manhole body and measuring external shock; and,
When the external shock measured through the shock detector reaches a dangerous shock corresponding to a pre-stored earthquake, it includes a controller that forms a certain vacuum in the vacuum forming body,
The vacuum former is,
Corrugated pipes in which the vacuum is formed,
A shock absorbing plate connected to the ends of the corrugated pipes,
It includes a vacuum provider that supplies vacuum to the inside of each of the corrugated pipes,
The circumference of each of the corrugated pipes is,
Connected around each side of the manhole body,
Around each side of the manhole body,
Guide pipes that guide the expansion and contraction of the corrugated pipes are connected to each other,
A connecting member movably connected to the guide pipe is provided around each of the corrugated pipes,
The connecting member moves along a moving rail formed on the guide pipe,
The shock absorber plate is,
An electric manhole structure for an apartment complex with earthquake-resistant and short-circuit prevention functions, characterized in that it is formed of a wave-shaped or uneven-shaped plate.
delete delete According to clause 1,
In the manhole body,
An insulating receiving pipe in which the wire is accommodated is installed,
A current sensor is installed to measure the current value in the wire and transmit the measured current value to the controller,
The receiving pipe is connected to an insulating material providing part,
The insulating material providing unit,
It includes a supply line, a recovery line, a supply pump installed in the supply line, a recovery pump installed in the recovery line, and an insulating material supplier that supplies insulating material to the supply line,
The end of the supply line is connected to the inside of the receiving pipe, and the recovery line is connected to the inside of the receiving pipe and the insulating material supplier,
When the measured current value reaches a preset ideal current value, the controller supplies the insulating material to the inside of the receiving tube using the insulating material supplier and the supply pump, and the measured current value reaches the preset ideal current value. When the current value is less than the ideal value, the recovery pump is used to recover the insulating material from the inside of the receiving pipe to the insulating material supplier through the recovery line. An apartment complex with an earthquake-resistant and electric leakage prevention function. For electric manhole structure.