KR101796310B1 - Remote monitoring apparatus of distribution line - Google Patents

Abstract

The present invention relates to a remote monitoring apparatus of a distribution line, and more particularly, to a remote monitoring apparatus of a distribution line, capable of monitoring a grounding state in the distribution line of each complex in an apartment house in real time, improving grounding efficiency by increasing a contact area under the ground in the grounding of the distribution line, and maintaining a stable combination state without separating and spacing between a grounding device and a grounding member by buffering a vibration due to an earthquake or the driving of a motor.

Description

[0001] REMOTE MONITORING APPARATUS OF DISTRIBUTION LINE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a remote monitoring device for a distribution line in a distribution technology field, and more particularly to a remote monitoring device for a distribution line, The grounding efficiency can be improved by increasing the area of the grounding member and the grounding member is separated from the grounding unit by buffering vibrations caused by driving of the motor or earthquake, Monitoring device.

Generally, power is transferred from a power plant to a substation, transformed through several stages, and then delivered to a home through a pole transformer along a distribution line such as a concrete pole.

In this case, the distribution line installed on the main pole requires securing materials and good grounding in the distribution line in order to protect the equipment by abnormal voltage such as lightning and surge and to prevent various electric disasters due to electric leakage.

The ground has the function of protecting human and electric equipment from power or lightning.

Particularly, in each complex of the apartment house, a distribution unit such as a distribution box is installed, and a distribution line is also installed.

Conventionally, since the grounding state in each of the power distribution parts of each complex can not be monitored in real time, there is a problem in that, when a ground fault occurs in the power distribution part of one complex, an electric shock accident of the worker occurs.

As a conventional technique in which such a problem is partially improved, Korean Patent Registration No. 10-1584589 (Jan. 13, 2016) discloses a grounding monitoring apparatus for distribution lines in a complex.

However, in the ground monitoring apparatus of the conventional power distribution line in the above-mentioned complex, the grounding apparatus is separated and separated from the grounding apparatus by the vibration caused by the driving of the motor or the earthquake, so that the monitoring by the grounding monitoring unit can not be smoothly performed.

Korea Patent Registration No. 10-1584589 (Jan. 13, 2016) 'Ground monitoring equipment for distribution lines in the complex'

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a method of monitoring the grounding state in a distribution line of each complex in a multi- And a remote monitoring device for the distribution line to be able to maintain a stable coupled state without separating and separating the grounding device from the grounding member by buffering vibrations due to driving of the motor or earthquake etc. .

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides a power supply system comprising: a plurality of power distribution units disposed in respective complexes of a multi-family house and having power distribution lines; A plurality of ground units 200 detachably attached to the power distribution lines 110 of each of the plurality of power distribution units 100 and grounding the power distribution line 110 to the ground; And a ground monitoring unit (300) monitoring the ground state in real time by detecting the presence or absence of disconnection from the power line (110) in the plurality of ground units (200), and each of the plurality of ground units A grounding member 210 electrically connected to the distribution line 110; A grounding unit 220 fixedly installed in the ground, the grounding member 210 detachably connected and grounding the distribution line 110 through the grounding member 210; And a connection sensing means 230 for sensing a connection state between the grounding device 220 and the grounding member 210. The grounding device 220 includes a grounding body 221 in the form of a disk; A plurality of embedding members 222 extending from the lower end of the rim of the grounding body 221 and embedded in the ground; A connection end 223 formed at the upper end of the grounding body 221 and screwed to the lower end of the grounding member 210; And a grounding member 210 which is provided inside the grounding body 221 and is made of metal and is physically contacted with the lower end of the grounding member 210 to which one end is screwed and the other end is connected to the lower end of the plurality of embedding members 222 And the connection detecting means 230 is installed between the lower end of the grounding member 210 and the upper end of the inner grounding member 224, and the connection detecting means 230 is installed between the lower end of the grounding member 210 and the upper end of the inner grounding member 224, And a pressure sensor for measuring the pressure between the lower end of the grounding member 210 and the upper end of the inner grounding member 224 due to the screwing of the inner grounding member 224, Shaped contact body 224a that is rotated by driving and the ground monitoring unit 300 includes an on-off switch (not shown) for connecting and disconnecting the distribution line 110 of each of the plurality of ground units 200 310); And a controller (320) for determining that the ground is defective when the pressure measured at each of the plurality of ground units (200) is received and becomes equal to or lower than a predetermined reference pressure, the controller (320) A remote monitoring device of a distribution line that blocks an electric distribution line using an open / close switch (310) installed in a corresponding ground part (200) of the plurality of ground parts (200) The buffer unit 400 includes a support plate 410 that is placed on the ground so as to be positioned above the grounding unit 220; A plurality of buffer means 420 connecting the support plate 410 and the grounding body 221; And a protection means 440 for protecting the buffer means 420. The protection means 440 has a lower end connected to the support plate 410 so as to be coupled to the outside of the buffer means 420, The support plate 410 includes a plurality of guide holes 411 through which the upper end of the protective pipe 441 is inserted while being vertically penetrated, And the buffering means 420 includes a guide bar 422 located inside the protective pipe 441 and opened at the bottom and a guide bar 422 extending upward from the grounding body 221, A buffer bar 421 including a support bar 423 vertically movably coupled to the inside of the buffer bar 421; A spring 424 housed inside the guide bar 422 so as to be positioned above the support bar 423; And a fixing means 425 for fixing the guide bar 422 to the support plate 410. The protective pipe 441 and the support bar 423 are fixed to the support plate 410 in accordance with the upward and downward movement of the grounding device 220 And the spring 424 shrinks as the support bar 423 moves up and down, and impacts due to the vibration are buffered, and the fixing means 425 is opened so that the lower portion thereof is opened An upper portion of the protective pipe 441 forms a space portion 426a which can be moved up and down and is inserted into and fixed to the guide hole 411. A coupling hole 426b, And a fixed cap (426) connected to the power line.

According to the present invention, firstly, it is possible to monitor the grounding state in the distribution line of each terminal of the apartment house in real time, and to improve the grounding efficiency by increasing the contact area in the ground in the distribution line .

Secondly, there is an effect that the electric distribution line in the distribution part of the complex in which the ground fault is generated is immediately cut off, thereby effectively preventing the electric shock accident of the manager in the ground fault state.

Third, there is an effect that the possibility of ground failure can be reduced by providing a separate connection end in one grounding member, connecting the connection end to a plurality of strands in one distribution line.

Fourth, by buffering vibration caused by driving of a motor or earthquake, it is possible to maintain a stable coupled state without separating and separating the grounding device from the grounding member, and it is also possible to smoothly monitor the grounding monitoring unit .

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a conceptual diagram showing a remote monitoring apparatus for a distribution line according to the present invention.
2 is a front view showing a remote monitoring apparatus for a distribution line according to the present invention.
FIG. 3 is an exploded view showing a state in which the grounding member is separated in FIG. 2. FIG.
4 is a front view showing a grounding member in a remote monitoring apparatus for a distribution line according to the present invention.
5 is a front view showing a state in which an inner grounding member is rotated by driving a motor in a remote monitoring apparatus for a distribution line according to the present invention.
And
6 is a front view showing a state in which a buffer is provided in a remote monitoring apparatus for a distribution line according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And should not be construed as limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein.

It should be understood that the embodiments according to the concept of the present invention are not limited to the particular mode of disclosure but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

Since the present invention uses the later-described pre-registered patent No. 1584589 as it is, all the features of the device configuration described below can be understood as the matters described in the registered patent No. 1584589. [

However, the present invention is not limited to the structure disclosed in the above-mentioned Japanese Patent No. 1584589 by replacing the "ground monitoring device for power distribution line in the complex" with the "remote monitoring device for distribution line," a structure for buffering vibrations transmitted from the outside, It contains further explanations, and this is the most essential constituent feature.

Therefore, the device structure, characteristics, and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent No. 1584589, and the structure related to the main features of the present invention will be described in detail at the rear end.

1 to 4, a remote monitoring apparatus for a distribution line according to the present invention includes a plurality of power distribution units 100 disposed in respective complexes of a complex and having power distribution lines 110, A plurality of ground units 200 detachably attached to each of the distribution lines 110 and grounding the distribution line 110 to the ground 1 and a plurality of ground lines 200 extending from the plurality of ground lines 200 to the distribution lines 110, And a ground monitoring unit 300 for detecting the presence or absence of disconnection from the grounding unit 110 and monitoring the grounding state in real time.

Each of the plurality of ground units 200 includes a ground member 210 electrically connected to the power distribution line 110, a ground member 210 fixed to the ground 1 and detachably connected to the ground member 210, A grounding device 220 for grounding the distribution line 110 through a member 210 and connection sensing means 230 for sensing a connection state between the grounding device 220 and the grounding member 210.

The grounding members 210 are formed as a pair and are arranged to be in contact with each other and are coupled through bolts (not shown).

A connection terminal is formed in each of the pair of ground members 210, and an end of the distribution line 110 is connected to the connection terminal.

Accordingly, when the pair of ground members 210 are coupled to face each other, each connection terminal is connected.

The grounding unit 220 includes a grounding body 221 having a circular plate shape, a plurality of embedding members 222 extending from the lower end of the rim of the grounding body 221 and fixedly embedded in the ground 1, A connection end 223 formed at the upper end of the grounding member 210 and screwed to the lower end of the grounding member 210; a grounding member 210 formed inside the grounding body 221 and made of metal, And the other end is protruded through the lower ends of the plurality of embedding members 222 and is buried in the ground 1.

The connection detecting means 230 is installed between the lower end of the grounding member 210 and the upper end of the inner grounding member 224 and is connected to the lower end of the grounding member 210 and the inner grounding member 224 And a pressure sensor for measuring the pressure between the upper ends of the pressure sensors.

The lower end of the inner grounding member 224 has a cone body 224a formed in a conical shape so as to be pointed downward and a plurality of units 234a projecting from the outer periphery of the cone body 224a and being embedded in the upper ground 1 And a ground terminal 224b.

5, the lower end of the inner ground member 224 according to the present invention is rotated by driving of the motor 500, and a lower end of the inner ground member 224 is connected to a cone- A body 224a is formed.

A screw projection 224c is formed on the outer periphery of the cone body 224a.

The inner ground member 224 is screwed to the ground 1 when it is rotated by the motor 500.

Therefore, not only the fixing force in the ground of the grounding device 220 is improved but also the fixing force forming area and the grounding area can be increased by screwing the cone body 224a to the ground 1.

The motor 500 is driven by a control signal of a controller 320, which will be described later.

The motor 500 is installed at the lower end of the inner grounding member 224 and the motor shaft of the motor 500 is disposed to face downward. The center is connected.

When the motor 500 is driven, the motor shaft is rotated and the cone body 224a connected to the motor shaft is rotated to rotate.

The ground monitoring unit 300 includes an on-off switch 310 for connecting and disconnecting the distribution line 110 of each of the plurality of ground units 200, and a controller 300 for transmitting the pressure measured by each of the plurality of the ground units 200 And a controller 320 that determines that the ground is defective when the reference pressure is equal to or lower than a reference pressure set in advance.

The controller 320 cuts off the power distribution line 110 by using the open / close switch 310 installed in the corresponding ground unit 200 among the plurality of the ground units 200 judged as the ground fault.

The grounding member 210 is formed of a metal rod and has a plurality of connecting ends 210a projecting in four directions on the outer surface of the grounding member 210 and connected to the other distribution line 110.

According to the present invention, it is possible to monitor the grounding state in the distribution line of each complex in real time, and to increase the contact area in the ground in the distribution line to improve the grounding efficiency.

In addition, it is possible to immediately shut off the power distribution line at the power distribution part where the ground fault occurs, thereby effectively preventing the electric shock accident of the manager in the ground fault state.

In the present invention, the configuration of the buffer unit 400 for buffering external vibrations as shown in FIG. 6, including the above-described configuration, is further implemented.

The buffering part 400 buffers vibrations caused by driving of the motor 500 or an earthquake, so that the grounding device 220 and the grounding member 210 are separated and separated from each other to maintain a stable coupled state.

The cushioning part 400 includes a support plate 410 to be placed on the ground so as to be positioned on the grounding unit 220, a plurality of buffering units 420 connecting the support plate 410 and the grounding body 221, And protection means (440) for protecting the buffer means (420).

The support plate 410 has a ring shape, and the grounding member 210 passes through the ground 1, that is, the center of the ground 1 while being seated on the ground.

The plurality of buffering means 420 are disposed between the support plate 410 and the grounding body 221 so as to be positioned above the respective embedding members 222 to buffer an impact due to vibration or the like.

The protective means 440 includes a plurality of protective pipes 441 whose lower ends are connected to the support plate 410 so as to be coupled to the outer sides of the respective buffering means 420 and whose upper ends extend upward from the ground.

The protection pipe 441 protects the buffer means 420 and moves together with the vertical movement of the grounding device 220 so that buffering of the buffer means 420 can be smoothly performed.

The support plate 410 has a plurality of guide holes 411 through which the upper end of the protective pipe 441 is inserted while being vertically penetrated.

This is for the purpose of allowing the protective pipe 441 to move up and down together with the vertical movement of the grounding device 220 due to vibration from the outside.

The buffering means 420 includes a guide bar 422 located inside the protective pipe 441 and opened at the bottom and an upwardly extending portion extending upwardly from the grounding body 221, A spring 424 received in the guide bar 422 so as to be positioned on the upper side of the support bar 423, 422) to the support plate (410).

Preferably, the guide bar 422 has a cylindrical shape with its lower portion opened, and the upper portion protrudes upward from the ground via the guide hole 411.

The supporting bar 423 has a lower supporting bar 423a which is fixed to the grounding body 221 and a lower supporting bar 423a which extends upward from the upper part of the lower supporting bar 423a and moves up and down inside the guide bar 422 And an upper support bar 423b which is coupled as far as possible.

The lower support bar 423a may be fixed to the grounding body 221 by welding or the like and may have an outer diameter larger than the outer diameter of the upper support bar 423b.

This is because the protective pipe 441 is spaced apart from the guide bar 422 and smooth up and down movement together with the grounding device 220 can be performed.

A screw thread is formed on the outer circumferential surface of the lower support bar 423a and the protective pipe 441 can be screwed to the support bar 423 while a thread is formed on the lower inner circumferential surface.

The protection pipe 441 and the support bar 423 are screwed to each other so that they can be moved up and down together with the up and down movement of the grounding device 220, have.

The spring 424 is accommodated inside the guide bar 423 so as to be positioned on the upper portion of the support bar 423 and is contracted and relaxed by pressing or releasing the pressure due to the upward and downward movement of the support bar 423, .

The upper portion of the protective pipe 441 forms a space portion 426a which can be moved up and down and is fixed to the support plate 410 (Not shown).

The fixing cap 426 may have a coupling hole 426b through which the upper portion of the guide bar 422 is inserted.

The fixing cap 426 may be threaded around the coupling hole 426b and the guide bar 422 may be screwed to each other while threads are formed on the upper outer circumferential surface.

The support plate 410 may be threaded around the guide hole 411 and the fixing cap 426 may be screwed to the support plate 410 while forming a thread on the outer circumferential surface thereof.

The fixing unit 425 may further include a nut 427 fixed to the support plate 410 to communicate with the guide hole 411 and to which the fixing cap 426 is screwed.

The nut 427 may be fixed to the support plate 410 by welding or the like.

Accordingly, the fixed cap 426 can maintain a stable engagement state without being separated from the support plate 410.

The buffering means 420 may further comprise adjusting means 428 for adjusting the elastic force of the spring 424. [

The adjusting means 428 includes a pressure plate 429 received in the guide bar 422 to be positioned on the upper portion of the spring 424 and a lower end positioned on the inner side of the guide bar 422, A rotating bar 430 penetrating the upper portion of the bar 422 and threaded on the inner circumferential surface of the bar 422 so that the pressing plate 429 is screwed and rotatably coupled to the guide bar 422, And a control lever 431 coupled to the upper portion of the control lever 431.

The guide bar 422 has a hollow portion 422a communicating with the inside of the guide bar 422. The rotation bar 430 is rotatably coupled to the hollow 422a by a bearing or the like.

Accordingly, when the adjusting lever 431 rotates, the adjusting plate 428 is moved up and down along the longitudinal direction of the rotating bar 430 so that the degree of contraction of the spring 424 The elastic force of the spring 424 can be appropriately adjusted.

The rotation bar 430 may have a step 432 projecting outward at a lower end thereof.

The step 432 prevents the pressure plate 429 from being detached from the rotary bar 430 when the pressure plate 429 is moved according to the rotation of the control lever 431.

Accordingly, the buffering part 400 buffers vibrations caused by driving of the motor, earthquake or the like so that the grounding device 220 and the grounding member 210 can be stably maintained without being separated and separated from each other At the same time, monitoring by the ground monitoring unit 300 can be performed smoothly.

100: power distribution part 110: power distribution line
200: ground unit 210: ground member
210a: connection end 220: grounding device
221: grounding body 222: embedding member
223: connecting end 224: inner grounding member
230: connection detecting means 300: ground monitoring unit
310: opening / closing switch 320:
400: buffer portion 410: support plate
411: guide ball 420: buffer means
421: buffer bar 422: guide bar
423: support bar 424: spring
425: fixing means 426: fixed cap
427: nut 428: adjusting means
429: pressure plate 430: rotating bar
431: Control lever 432:
440: Protection means 441: Protection pipe

Claims (1)

A plurality of power distribution units (100) disposed in each of the complexes of the apartment house and having power distribution lines (110);
A plurality of ground units 200 detachably attached to the power distribution lines 110 of each of the plurality of power distribution units 100 and grounding the power distribution line 110 to the ground; And
And a ground monitoring unit (300) for detecting the presence or absence of disconnection from the distribution line (110) in the plurality of ground units (200) and monitoring the ground state in real time,
Each of the plurality of ground units 200 includes:
A grounding member 210 electrically connected to the distribution line 110;
A grounding unit 220 fixedly installed in the ground, the grounding member 210 detachably connected and grounding the distribution line 110 through the grounding member 210; And
And connection detecting means (230) for detecting a connection state between the grounding device (220) and the grounding member (210)
The grounding device (220)
A grounding body 221 of a disk shape;
A plurality of embedding members 222 extending from the lower end of the rim of the grounding body 221 and embedded in the ground;
A connection end 223 formed at the upper end of the grounding body 221 and screwed to the lower end of the grounding member 210; And
The grounding member 210 is installed inside the grounding body 221 and is made of metal and is physically contacted with the lower end of the grounding member 210 having one end screwed thereto and the other end is connected to the lower end of the plurality of embedding members 222 And an inner grounding member (224) protruding and embedded in the ground,
The connection detecting means (230)
A pressure between the lower end of the grounding member 210 and the upper end of the inner grounding member 224 due to being screwed is measured between the lower end of the grounding member 210 and the upper end of the inner grounding member 224 Pressure sensor,
The inner grounding member (224)
Shaped cone body 224a rotated by driving the motor 500 is provided at the lower end,
The ground monitoring unit (300)
An open / close switch (310) for connecting and disconnecting the distribution line (110) of each of the plurality of ground units (200); And
And a controller (320) for determining that the ground is defective when the pressure measured at each of the plurality of ground units (200) is received and becomes equal to or lower than a predetermined reference pressure,
The controller (320)
A remote monitoring apparatus for a distribution line that uses an open / close switch (310) installed in a corresponding ground unit (200) among a plurality of the ground units (200)
And a buffering part (400) for buffering vibration transmitted from the outside so as to maintain a stable coupled state between the grounding device (220) and the grounding member (210) without being separated and separated from each other,
The buffering part (400)
A support plate 410 seated on the ground so as to be positioned above the grounding device 220;
A plurality of buffer means 420 connecting the support plate 410 and the grounding body 221; And
And protection means (440) for protecting the buffer means (420)
The protection means (440)
And a plurality of protective pipes 441 whose lower ends are connected to the support plate 410 so as to be coupled to the outside of the buffering means 420 and whose upper ends extend upward from the ground,
The support plate (410)
A plurality of guide holes 411 through which the upper end of the protective pipe 441 is inserted are formed,
The buffer means (420)
A guide bar 422 which is located inside the protective pipe 441 and whose lower portion is opened and which is vertically movable from the ground body 221 to the inside of the guide bar 422, A buffer bar 421 comprising a bar 423;
A spring 424 housed inside the guide bar 422 so as to be positioned above the support bar 423;
Fixing means (425) for fixing the guide bar (422) to the support plate (410); And
And adjusting means (428) for adjusting the elastic force of the spring (424)
The guide bar (422)
The upper portion is protruded upward from the ground surface through the guide hole 411,
The support bar (423)
A lower holding member 423a having a lower portion fixed to the grounding body 221; And
And an upper support bar (423b) extending upward from an upper portion of the lower support bar (423a) and coupled to the inside of the guide bar (422) so as to be vertically movable,
The lower paper finger 423a is formed,
The outer diameter of which is larger than the outer diameter of the upper support bar 423b so that the protective pipe 441 is spaced apart from the guide bar 422 so that smooth upward and downward movement can be achieved with the grounding device 220, Is formed,
The protective pipe (441)
A screw thread is formed on the lower inner circumferential surface and is screwed to the support bar 423,
The protective pipe 441 and the support bar 423 are connected to each other,
The grounding device 220 is vertically moved together with the upward and downward movement,
The spring (424)
The support bars 423 are contracted in accordance with the upward and downward movement, shocks due to vibration are buffered,
The fixing means (425)
And the upper portion of the protective pipe 441 is vertically movable. The upper portion of the protective pipe 441 is engaged with the upper portion of the guide bar 422, A fixed cap 426 on which a hole 426b is formed; And
And a nut (427) fixed to the support plate (410) to communicate with the guide hole (411) and to which the fixing cap (426) is screwed,
The fixing cap 426 is threaded around the coupling hole 426b and the guide bar 422 is screwed to the fixing cap 426 while a thread is formed on the outer peripheral surface of the fixing cap 426,
The support plate 410 is threaded around the guide hole 411 and the fixing cap 426 is screwed to the support plate 410 while forming a thread on the outer circumferential surface thereof,
The adjusting means (428)
A pressure plate 429 housed inside the guide bar 422 to be positioned above the spring 424;
The lower end of the guide bar 422 is positioned inside the guide bar 422 and the upper end of the guide bar 422 passes through the upper portion of the guide bar 422 and the inner peripheral surface of the guide bar 422 is threaded, And a step 432 protruding outward at a lower end of the rotation bar 430; And
And an adjustment lever 431 coupled to the upper portion of the rotation bar 430. The elastic force of the spring 424 is adjusted by the upward and downward movement of the pressure plate 429 as the adjustment lever 431 rotates, And,
The step 432,
Wherein the pressure plate (429) is not separated from the rotation bar (430) when the pressure plate (429) is moved according to the rotation of the control lever (431).

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