KR102434496B1 - Electric manhole - Google Patents

Abstract

The present invention provides an electric manhole with a seismic function. The electric manhole with a seismic function, which is an electric manhole buried in the ground, comprises: a main body of the manhole having an inner space formed therein; and a pair of protective tubes formed on both sides of the main body of the manhole to be able to move; and a plurality of electric cables located in the inner space of the main body of the manhole and having both ends extending through the pair of protective tubes; reels arranged in the main body of the manhole to be able to move and winding or unwinding each of the plurality of electric cables; and an impact control part included in the main body of the manhole to measure an external impact force, and unwinding each of the plurality of electric cables using the reels if the measured external impact force is equal to or greater than an abnormal impact force corresponding to an earthquake. Therefore, provided is an electric manhole with a seismic function, wherein disconnection caused by external vibration can be prevented.

Description

Electric manhole with seismic function {ELECTRIC MANHOLE}

The present invention relates to an electric manhole having an earthquake-resistant function, and more particularly, by enabling the cables passing through both sides of the electric manhole to flow elastically to prevent disconnection by external vibrations, and the manhole body itself Maintain a constant posture in the ground to solve the problem of cables being disconnected due to a change in posture even when an earthquake occurs It relates to an electric manhole having an earthquake-resistant function.

In general, electric manholes are installed at the junctions and connecting parts of cables for protection and management of various cables installed in the ground, so that the branching or connection of the lines can be made easily, and the damage of the lines during the thawing period is prevented and repair work can be performed. An openable and openable lid is provided on the upper part.

As described above, the work for installing various cables underground consists of pouring concrete in the formwork to construct a manhole, and then installing various cables therein.

If we look at the construction of such a manhole schematically, first dig a pit to an appropriate depth at the location where the manhole is to be installed on the cable track, manufacture a form to meet the standard, pour concrete into the form, cure it for an appropriate time, and then After removing the concrete, fill in the soil around the manhole cast with concrete, fill in the work, and connect the cable to finish.

As shown in FIG. 1, the completed electric manhole 10 is buried in the ground, an inner space 11 is formed, and a plurality of cables 5 are arranged adjacent to each other in the center of each wall 12 facing each other. It has a structure in which a plurality of through-holes 12a are provided so as to pass through the respective wall surfaces 12 via the inner space 11 .

However, since the electric manhole structure of the prior art has a structure in which the cable is disposed through the central portion of the inner space of the electric manhole, the cables are basically tangled with each other, making it difficult to check the cables during work such as electrical work. Of course, if a worker is put inside the electric manhole for electrical work, etc., the cable is obstructed, making it difficult to work, and there is a risk of damaging the cable by stepping on the cable.

In addition, since the cable itself is left unattended in the inner space of the electric manhole without any other protective means, the cable is damaged by collision with each other, and in some cases, a short circuit occurs. .

In addition, when an earthquake occurs, cables become disconnected, and when a short circuit occurs between cables with disconnection, it causes even greater problems.

In addition, since the electric manhole itself is buried in the ground, more than a certain amount of moisture is generated, and there is a problem that an electrical accident continuously occurs when the part where the disconnection occurs as described above is exposed to moisture as it is.

The present invention has been devised to solve the above problem, and an object of the present invention is to prevent disconnection by external vibration by elastically enabling cables passing through both sides of an electric manhole to flow, as well as to prevent a break in the manhole. By maintaining the body itself in a constant posture in the ground, even if an earthquake occurs, the cable is disconnected due to the change in posture, and the humidity inside the manhole body is kept below a constant level to prevent moisture from being exposed to the cable. It is to provide an electric manhole having an earthquake-resistant function that can do this.

In addition, another object of the present invention is to be able to stably fix the manhole body at the corresponding position when an earthquake occurs, and to configure each of the protective tubes penetrating the cables on both sides of the manhole body to be movable so that the cable disconnection due to the earthquake And to provide an electric manhole having an earthquake-resistant function that can effectively prevent damage between the manhole main body and the protective tube.

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

In order to achieve the above object, the present invention provides an electric manhole having an earthquake-resistant function.

In the electric manhole buried in the ground, the electric manhole having the earthquake-resistant function,

The electric manhole, a manhole body in which an inner space is formed, a pair of protective tubes movably formed on both sides of the manhole body, are located in the inner space of the manhole body so that both ends are through the pair of protective tubes A plurality of electric cables that extend, are movably disposed on the manhole body, and reels for winding or unwinding each of the plurality of electric cables, are provided in the manhole body to measure an external impact force, and the measured external impact force When it achieves more than the shock force corresponding to the earthquake, it includes an impact control unit for unwinding each of the plurality of electric cables using the reels.

Here, the impact control unit,

Impact sensors installed in multiple positions of the manhole body to measure external impact force at the corresponding positions;

provided with a controller,

The controller receives the external impact force measured from the impact sensors, processes the average, and calculates the average impact force,

When the average impact force is greater than or equal to the ideal impact force, it is preferable to include a controller for unwinding each of the plurality of electric cables to a predetermined length using the reels.

And on the ceiling and the floor of the inner space of the manhole body,

A plurality of circular moving grooves are respectively formed,

Each of the reels is provided with a case,

The case is formed in a cylindrical shape,

The upper periphery of the case is movably disposed in a moving groove formed in the ceiling,

The lower periphery of the case is movably disposed in a moving groove formed in the floor,

The inner periphery of the moving groove formed in the ceiling and the upper periphery of the case are elastically connected by a plurality of first springs,

It is preferable that the inner periphery of the moving groove formed in the bottom and the lower periphery of the case are elastically connected by a plurality of second springs.

In addition, the moving groove formed on the ceiling and the moving groove formed on the floor are formed as a hemispherical groove,

It is preferable that the upper end and lower end of the case protrude in a hemispherical shape.

In particular, a pair of connection holes forming a first inner diameter are formed on both sides of the manhole body,

The pair of protective tubes includes a protective tube body and a disk-shaped rotating member in which a hole through which an electric cable formed at an end of the protective tube body passes is formed,

The diameter of the protective tube body is formed to be smaller than the first inner diameter, and the diameter of the rotating member is formed to be larger than the first inner diameter,

A guide groove formed in a ring shape and having a hemispherical cross section is formed on the inner periphery of the pair of connection holes,

A circumference of the rotating member is formed in a hemispherical shape, and is in contact with the guide groove,

Between the pair of connection holes and the protective tube body is connected by a corrugated member,

A ring-shaped elastic member is interposed between the pair of connection holes and the protective tube body.

In addition, the pair of guide grooves are formed in a plurality of guide blocks arranged in a circle,

A ring-shaped flow groove is formed on the inner peripheral side of the pair of connection holes,

The plurality of guide blocks are disposed inside the flow groove,

The plurality of guide blocks are connected to elastic springs installed at a plurality of positions inside the flow groove to enable elastic flow.

In addition, the manhole body,

It is placed inside the manhole case,

A pair of through-holes through which the pair of protective tubes pass are formed in both sides of the manhole case,

A corrugated member is connected between the pair of through-holes and the pair of protective tubes,

Cylinders having a contracting axis are arranged at multiple positions on the inner wall of the manhole case,

Each of the cylinders is rotatably connected to a plurality of positions on the inner wall of the manhole case through a first rotation hole,

Second rotary spheres are disposed at a plurality of positions around the manhole body,

The axial end of each of the cylinders is rotatably connected to each of the second rotary spheres,

the cylinders are driven by the control of the controller,

A horizontal sensor is disposed on the manhole body to detect the level and transmit it to the controller,

The controller is

Control the manhole body to be horizontal by protruding or inserting the shaft using the cylinders so that the level is sensed from the horizontal sensor.

In addition, the support parts are arranged at a plurality of locations around the outer circumference of the manhole case,

Each of the supports,

A first cylinder having a first axis that can be stretched and contracted;

a support plate installed at an end of the first shaft;

Provided with the corrugated cover tube,

The end of the first cylinder is installed on the outer periphery of the manhole case,

The cover tube surrounds the circumference of the first cylinder and the support plate,

The controller is

By using the first cylinder to expand and contract the first shaft, the support plate is driven to be supported in the underground.

In addition, the support plate,

a first support plate connected to an end of the first shaft;

second support plates arranged in a grid arrangement on the first support plate;

and a second elastic spring elastically supporting the first and second support plates.

In addition, the inner space of the manhole body is provided with a humidity sensor for measuring the humidity generated in the inner space,

The manhole body includes an outside air inlet tube and an exhaust tube. One end of the exhaust tube is connected to be exposed to the inner space of the manhole body, and the other end is exposed to the ground through the manhole case,

One end of the outdoor air inlet tube is connected to be exposed to the inner space of the manhole body, and the other end is exposed to the ground through the manhole case,

A fan is installed in the exhaust tube,

The controller drives the fan so that the measured humidity reaches a preset reference humidity to introduce outdoor air into the inner space of the manhole body and exhaust it through the exhaust tube to ventilate.

In addition, a discharge tube is connected to the manhole body. The discharge tube is connected to the pump.

When the controller drives the fan and the measured humidity does not reach a preset reference humidity, the controller forcibly discharges water formed in the inner space of the manhole body through the discharge tube using the pump.

By means of the above solution, the present invention enables the cables passing through both sides of the electric manhole to flow elastically to prevent disconnection due to external vibration, and to maintain a constant posture of the manhole body itself in the ground. Thus, even if an earthquake occurs, the problem of cables being disconnected due to a shift in posture is solved, and the humidity inside the manhole body is constantly maintained below a certain level, thereby preventing moisture from being exposed to the cables.

In addition, the present invention can ensure that the manhole body is stably fixed at the corresponding position when an earthquake occurs, and by configuring each of the protective tubes penetrating the cables on both sides of the manhole body to be movable, cable disconnection and the manhole main body according to the earthquake It has the effect of effectively preventing the damage between the and the protective tube.

In addition to the above-described effects, the specific effects of the present invention will be described together while describing specific details for carrying out the invention below.

1 is a view showing a conventional electric manhole.
Figure 2 is a view showing an electric manhole having a seismic function according to the present invention. 3 is a plan view showing an electric manhole according to the present invention.
4 is a view showing an example in which the moving groove and the top and bottom of the reel according to the present invention are formed in a hemispherical shape.
5 is a view showing a state in which the protective pipe according to the present invention is connected to the connection hole formed in the manhole body.
6 is a view showing another example of a connection hole according to the present invention.
7 is a view showing an example in which the manhole body according to the present invention is disposed inside the manhole case.
8 is a view showing an example in which the support parts are installed around the manhole case according to the present invention.
9 is a view showing the ventilation structure inside the manhole body according to the present invention.

Hereinafter, with reference to the drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily implement them.

The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar elements throughout the specification.

In the following, the provision or arrangement of an arbitrary component on the “upper (or lower)” or “top (or below)” of the substrate means that any component is provided or disposed in contact with the upper surface (or lower surface) of the substrate. means that

Further, it is not intended to limit the inclusion of other components between the substrate and any component provided or disposed on (or under) the substrate.

An electric manhole having an earthquake-resistant function of the present invention will be described below.

Figure 2 is a view showing an electric manhole having a seismic function according to the present invention. 3 is a plan view showing an electric manhole according to the present invention.

2 and 3 , the electric manhole having an earthquake-resistant function of the present invention includes a manhole body 100 having an internal space formed therein, and a pair of protective tubes movably formed on both sides of the manhole body 100 . 200 and a plurality of electric cables 300 positioned in the inner space of the manhole body 100 and extending through the pair of protective tubes 200 at both ends, and the manhole body 100 to be able to flow is disposed, and is provided in the reels 400 for winding or unwinding each of the plurality of electric cables 300 and the manhole body 100 to measure an external impact force, and the measured external impact force corresponds to an earthquake. When the impact force or more is achieved, an impact control unit 500 for unwinding each of the plurality of electric cables 300 using the reels 400 is included.

Here, the impact control unit 500 includes impact sensors 510 installed at multiple locations of the manhole body 100 to measure an external impact force at the corresponding locations, and a controller 520 .

The controller 520 receives and averages the external impact force measured from the impact sensors 510 to calculate the average impact force.

In addition, the controller 520 controls to unwind each of the plurality of electric cables 300 to a predetermined length using the reels 400 when the average impact force is greater than or equal to the abnormal impact force.

And a plurality of circular moving grooves 110 and 120 are formed in the ceiling and the bottom of the inner space of the manhole body 100, respectively.

Each of the reels 400 includes a case 410 . The case 410 is formed in a cylindrical shape.

The upper periphery of the case 410 is movably disposed in the moving groove 110 formed in the ceiling.

The lower periphery of the case 410 is movably disposed in the moving groove 120 formed in the floor.

The inner periphery of the moving groove 110 formed in the ceiling and the upper periphery of the case 410 are elastically connected by a plurality of first springs 111 .

The inner periphery of the moving groove 120 formed in the bottom and the lower periphery of the case 410 are elastically connected by a plurality of second springs 121 .

4 is a view showing an example in which the moving groove and the top and bottom of the reel according to the present invention are formed in a hemispherical shape.

Referring to FIG. 4 , the moving groove 110 ′ formed on the ceiling and the moving groove 120 ′ formed on the floor are formed as hemispherical grooves.

The upper and lower ends of the case 410 protrude in a hemispherical shape.

Accordingly, the upper and lower ends of the case 410 protruding in a hemispherical shape can elastically move in the moving grooves 110' and 120' formed by each hemisphere-shaped groove, so that stable behavior is possible, and when the case is subjected to external impact Even if the 410 collides with the moving grooves 110' and 120', it is possible to prevent the case 410 or a part of the moving grooves 110' and 120' from being damaged.

5 is a view showing a state in which the protective pipe according to the present invention is connected to the connection hole formed in the manhole body.

Referring to FIG. 5 , a pair of connection holes 130 forming a first inner diameter are formed on both sides of the manhole body 100 .

The pair of protective tubes 200 includes a protective tube body 210 and a disk-shaped rotating member 220 in which a hole 221 through which an electric cable 300 formed at an end of the protective tube body 210 passes is formed. to provide

Here, a guide groove 140 is formed in the connection hole 130 . A circumference of the rotating member 220 is disposed inside the guide groove 140 .

Elastic members 150 are installed in the guide groove 140 . The elastic members 150 elastically support the inner surface of the guide groove 140 and a plurality of positions around the rotation member 220 .

And the circumference of the manhole body 100 around the connection hole 130 and the outer circumference of the protective tube body 220 are connected to be surrounded by the corrugation member (160).

6 is a view showing another example of a connection hole according to the present invention.

Referring to FIG. 6 , a pair of connection holes 130 forming a first inner diameter are formed on both sides of the manhole body 100 .

The pair of protective tubes 200 includes a protective tube body 210 and a disk-shaped rotating member 220 in which a hole through which the electric cable 300 formed at the end of the protective tube body 210 passes is formed. .

The diameter of the protective tube body 210 is formed to be smaller than the first inner diameter, and the diameter of the rotating member 220 is formed to be larger than the first inner diameter.

A guide groove 140 formed in a ring shape and having a hemispherical cross section is formed in the inner periphery of the pair of connection holes 130 .

The circumference of the rotation member 220 is formed in a hemispherical shape, and is in contact with the guide groove 140 .

A corrugation member 150 is connected between the pair of connection holes 130 and the protective tube body 210 .

A ring-shaped elastic member (not shown) is interposed between the pair of connection holes 130 and the protective tube body 210 .

In addition, the pair of guide grooves 140 are formed in a plurality of guide blocks 160 arranged in a circular shape.

A ring-shaped flow groove 170 is formed on the inner peripheral side of the pair of connection holes 130 .

The plurality of guide blocks 160 are disposed inside the flow groove 170 .

The plurality of guide blocks 160 are connected to elastic springs 180 installed at a plurality of positions inside the flow groove 170 to enable elastic flow.

7 is a view showing an example in which the manhole body according to the present invention is disposed inside the manhole case.

Referring to FIG. 7 , the manhole body 100 according to the present invention is disposed inside the manhole case 600 .

A pair of through-holes 610 through which the pair of protective tubes 200 pass are formed in both sides of the manhole case 600 .

A corrugation member 620 is connected between the pair of through-holes 610 and the pair of protective tubes 200 .

Cylinders 630 having a contracting axis 631 are disposed at multiple positions on the inner wall of the manhole case 600 .

Each of the cylinders 630 is rotatably connected to a plurality of positions on the inner wall of the manhole case 600 through a first rotation hole 641 , and a second rotation is provided at a plurality of positions around the manhole body 100 . Spheres 642 are placed.

An end of the shaft 631 of each of the cylinders 630 is rotatably connected to each of the second rotary holes 642 .

The cylinders 630 are driven under the control of the controller 520 .

A horizontal sensor 650 is disposed in the manhole body 100 to sense the level and transmit it to the controller.

The controller 520 controls the manhole body 100 to be horizontal by protruding or inserting the shaft 631 using the cylinders 630 so that the level is sensed from the horizontal sensor 650 .

8 is a view showing an example in which the support parts are installed around the manhole case according to the present invention.

Referring to FIG. 8 , the support parts 700 are disposed at multiple locations around the outer circumference of the manhole case 600 .

Each of the support parts 700 includes a first cylinder 710 having a first shaft 711 that can be stretched and contracted, a support plate 720 installed at an end of the first shaft 711, and the corrugated cover tube (730).

An end of the first cylinder 710 is installed on the outer periphery of the manhole case 600 .

The cover tube 730 surrounds the first cylinder 710 and the support plate 720 .

The controller 520 expands and contracts the first shaft 711 using the first cylinder 710 to drive the support plate 720 to be supported in the underground.

In addition, the support plate 720 includes a first support plate 721 connected to an end of the first shaft 711 and second support plates 722 disposed on the first support plate 721 in a grid arrangement. and a second elastic spring 723 elastically supporting the first support plate 721 and the second support plates 722 .

9 is a view showing the ventilation structure inside the manhole body according to the present invention.

9, the inner space of the manhole body 100 is provided with a humidity sensor 190 for measuring the humidity generated in the inner space.

The manhole body 100 includes an outdoor air inlet tube 810 and an exhaust tube 820 . One end of the exhaust tube 820 is connected to be exposed to the inner space of the manhole body 100 , and the other end passes through the manhole case 600 and is exposed to the ground.

One end of the outdoor air inlet tube 810 is connected to be exposed to the inner space of the manhole body 100, the other end is exposed to the ground through the manhole case 600, and the exhaust tube 820 has a fan ( 830) is installed.

The controller 520 drives the fan 830 so that the measured humidity reaches a preset reference humidity to introduce outside air into the inner space of the manhole body 100 and exhaust it through the exhaust tube 820 . to ventilate

In addition, the discharge tube 840 is connected to the manhole body 100 . The discharge tube 840 is connected to the pump 850 .

The controller 520 is formed in the inner space of the manhole body 100 using the pump 850 when the measured humidity does not reach a preset reference humidity as the fan 830 is driven. Water is forcibly discharged through the discharge tube (840).

According to the above configuration and action, the present invention enables the cables passing through both sides of the electric manhole to flow elastically, thereby preventing disconnection due to external vibration, and maintaining a constant posture of the manhole body itself in the ground. Even if an earthquake occurs, the problem of cables being disconnected due to a shift in posture is solved, and the humidity inside the manhole body is constantly maintained below a certain level to prevent moisture from being exposed to the cables.

In addition, the present invention can ensure that the manhole body is stably fixed at the corresponding position when an earthquake occurs, and by configuring each of the protective tubes penetrating the cables on both sides of the manhole body to be movable, cable disconnection and the manhole main body according to the earthquake It has the effect of effectively preventing the damage between the and the protective tube.

That is, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive, and the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims and their equivalents All changes or modifications derived from the concept should be construed as being included in the scope of the present invention.

100: manhole body
200: protection officer
300: electric cable
400: reels
500: shock control

Claims (4)

In the electric manhole buried underground,
The electric manhole is
A manhole body in which an internal space is formed, and
A pair of protective tubes movably formed on both sides of the manhole body,
A plurality of electric cables located in the inner space of the manhole body and extending at both ends through the pair of protective tubes,
Reels that are movably disposed in the manhole body, and wind or unwind each of the plurality of electric cables;
It is provided in the manhole body to measure an external impact force, and when the measured external impact force is greater than or equal to an abnormal impact force corresponding to an earthquake, including an impact control unit for unwinding each of the plurality of electric cables using the reels,
The impact control unit,
Impact sensors installed in multiple positions of the manhole body to measure external impact force at the corresponding positions;
provided with a controller,
The controller receives the external impact force measured from the impact sensors, processes the average, and calculates the average impact force,
and a controller for unwinding each of the plurality of electrical cables to a predetermined length using the reels when the average impact force is equal to or greater than the ideal impact force,
On the ceiling and floor of the inner space of the manhole body,
A plurality of circular moving grooves are respectively formed,
Each of the reels is provided with a case,
The case is formed in a cylindrical shape,
The upper periphery of the case is movably disposed in a moving groove formed in the ceiling,
The lower periphery of the case is movably disposed in a moving groove formed in the floor,
The inner periphery of the moving groove formed in the ceiling and the upper periphery of the case are elastically connected by a plurality of first springs,
An electric manhole having an earthquake-resistant function, characterized in that the inner periphery of the moving groove formed in the floor and the lower periphery of the case are elastically connected by a plurality of second springs.
delete delete The method of claim 1,
The moving groove formed on the ceiling and the moving groove formed on the floor are formed as hemispherical grooves,
An electric manhole having a seismic function, characterized in that the upper and lower ends of the case protrude to form a hemispherical shape.

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