KR101788173B1 - a earthquake-proof panel board - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seismic resistant switchgear capable of absorbing vibration when an earthquake occurs. In the seismic resistant switchboard according to the embodiment of the present invention, the seismic resistant switchboard according to the embodiment of the present invention includes a base plate on which a water distribution mechanism is mounted, a water distribution mechanism provided on the base plate, A shock absorbing damper installed on a bottom surface of the base plate to absorb vibrations transmitted to a plurality of electrical appliances, a channel base supported by the buffer damper and on which the base plate is seated, An air damper installed between each corner portion of the channel base and the bottom to absorb vibrations transmitted from the floor to the channel base by the air to be charged; an air damper penetrating the base plate from the upper inner surface of the housing to support the air damper A supporting wire extending to the floor and supporting the housing, A support spring installed at an intermediate portion of the support wire to support the support wire by an elastic force to provide an elastic force to the support wire, a support spring installed on the support wire to adjust the length of the support wire, And an elasticity adjusting mechanism for adjusting an elastic force by a spring. Therefore, it is possible to effectively absorb vibrations when an earthquake occurs and to protect the water distribution mechanism.

Description

An earthquake-proof panel board

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seismic resistant switchgear capable of absorbing vibration when an earthquake occurs.

In general, the switchgear is installed to distribute high-voltage or high-voltage electricity to various places by modifying the voltage and current for the purpose of use.

In such a switchboard, power distribution devices such as a transformer for changing voltage to suit the purpose of use, a breaker for supplying and cutting off high voltage electricity, and a distribution panel for supplying converted electricity are installed inside the enclosure, and a transformer, , Grounding bars for grounding electrical equipment, etc. are installed on the floor and grounded.

Meanwhile, in order to protect the power lines of the earthquake by absorbing the vibration when the earthquake occurs, the electric power supplied to the customer may be shut off when the earthquake occurs. In the past, ) Has been started.

The above-mentioned conventional earthquake-resistant power transmission / distribution panel includes a switchboard disposed at an upper portion of a foundation; An upper frame including an upper horizontal plate coupled to the bottom of the switchgear and an upper vertical plate extending from the upper horizontal plate to a vertical lower portion and a lower horizontal plate coupled to the upper surface of the foundation, A frame portion including a lower frame made up of a lower vertical plate to which the lower frame is attached; A lower bracket fixedly coupled to an upper surface of the lower horizontal plate fixedly coupled to a bottom surface of the upper horizontal plate, a wire rope buffer configured to connect the lower bracket and the upper and lower brackets through a plurality of circuits, And a coil spring disposed between the upper bracket and the lower bracket. And a control unit for capturing the displacement of the internal equipment of the switching and switching center by an image and calculating distance and space coordinate data of the displacement.

The conventional earthquake-resistant power transmission and distribution panel having such a configuration can prevent the breakage of the power-transmission-and-distribution apparatuses accommodated therein by buffering the vibration of the coil spring.

However, in the conventional earthquake-resistant power transmission / distribution panel, there is a problem that when the earthquake occurs, the electric shock absorber springs can protect the electric power tools, but the housing with relatively low rigidity is easily damaged.

In addition, the conventional seismic switchgear can not detect the leakage current of the ground wire.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a shock absorber capable of protecting the power transmission and transmission mechanisms when an earthquake occurs, And to provide a seismic resistant switchboard that can protect the switchgear mechanisms by sensing the leakage current of the ground wire.

According to another aspect of the present invention, there is provided a dustproof switchboard comprising: a base plate on which a water distribution mechanism is mounted; a water distribution mechanism provided on the base plate; A shock absorber provided on the bottom surface of the base plate for absorbing vibrations transmitted to the power outlet, a channel base supported by the buffer damper and on which the base plate is seated, An air damper installed between the corner portion and the floor and absorbing vibration transmitted from the floor to the channel base by the air to be charged; an air damper extending from the inner surface of the upper end of the housing to the bottom through which the air damper is supported, A supporting wire for supporting the housing, A support spring installed at an intermediate portion of the support wire to support the housing by an elastic force to provide an elastic force to the support wire, a support spring installed on the support wire to adjust the length of the support wire, And an elasticity adjusting mechanism for adjusting elasticity.

A vibration sensor installed in the housing for detecting an earthquake, and a control unit for controlling the vibration of the support wire to increase the supporting force of the support wire to support the enclosure, when vibration of the earthquake sensed by the vibration sensor occurs at a predetermined vibration or more, And a wire-to-wire wire that increases the elasticity of the support spring.

Wherein the wire pulling sphere includes a pulling roller formed with a wire hole through which the support wire is installed so as to extend around the pulling roller, and the support wire passing through the pulling roller is wound by the rotation of the pulling roller to pull the support wire And a drive motor for rotating the motor.

According to the present invention, the base plate on which the water power distribution mechanism is mounted absorbs vibration transmitted from the floor by the air damper and the buffer damper to the electric power supply to prevent the damage of the electric power supply vortex due to the earthquake.

In addition, since the support wire supports the housing, the housing can be firmly fixed to the floor, and the support wire can be provided with a support spring to reduce the transmission of vibration due to an earthquake from the floor to the housing.

In addition, according to the magnitude of the vibration of the earthquake, the steel wire per wire acts to more firmly support the housing, thereby minimizing the breakage of the housing due to the earthquake.

In addition, the clip member for fixing the ground cable can measure the leakage current of the ground cable, and the clip member is provided by the elastic member in the water distribution mechanism so that the shock due to the earthquake can be prevented from being transmitted to each other have.

1 is a perspective view showing a seismic resistant switchboard according to an embodiment of the present invention.
2 is a schematic front cross-sectional view illustrating a seismic resistant switchboard according to an embodiment of the present invention.
FIG. 3 is a perspective view of a wire netting constituting a seismic resistant switchboard according to an embodiment of the present invention.
4 is a schematic cross-sectional view showing an operating state of a wire rope per wire constituting a seismic resistant switchboard according to an embodiment of the present invention.
5 is a perspective view showing a clip member constituting a seismic resistant switchboard according to an embodiment of the present invention.
6 is a perspective view showing a clip member constituting a seismic resistant switchboard according to an embodiment of the present invention, and shows a state in which it is opened for installing a ground cable.

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

1 and 2, a dustproof switchboard 100 according to an embodiment of the present invention includes a base plate 110, a channel base 120, a housing 130, a buffer damper 115, an air damper (125), and support wire (140).

The base plate 110 may have a water distribution mechanism 200 for performing water distribution, and the base plate 110 may have a rectangular plate shape.

Here, the water distribution mechanism 200 may be various mechanisms capable of distributing and supplying power, such as a transformer, a lightning arrester, a circuit breaker, and an electric appliance.

An enclosure 130 may be installed on the upper portion of the base plate 110 and the bottom of the enclosure 130 may be closed by the base plate 110.

A through hole may be formed at each corner of the base plate 110, through which the support wire 140 installed in the housing 130 penetrates.

A buffer damper 115 may be installed at each corner of the bottom surface of the base plate 110. The buffer damper 115 may be formed of a material having elasticity such as rubber, urethane, or synthetic resin.

The base plate 110 may be installed in the channel base 120 in such a manner that the buffer damper 115 is seated on the channel base 120 and the channel base 120 may receive the base plate 110 A rectangular plate or a square frame shape.

The air damper 125 may be installed at each corner of the channel base 120. The air damper 125 may be installed at the bottom of the channel base 120, Thereby supporting the channel base 120.

On the other hand, the air damper 125 can absorb vibration transmitted from the floor to the channel base 110 when an earthquake occurs due to the air being filled in the tube.

The enclosure 130 can receive the water distribution mechanism 200 provided on the base plate 110 and protect the water distribution mechanism 200. The enclosure 130 can be formed into a square box shape have.

The open bottom of the housing 130 may be sealed to the base plate 110.

The housing 130 may be provided with an opening and closing door 131 for opening and closing the inside of the housing 130 to inspect the water distribution mechanism 200. The opening and closing door 131 may be provided with a through- The viewing window 133 may be formed.

In addition, the opening / closing door 131 may be provided with a display 132 for visually checking the operation state of the water distribution mechanism 200 from the outside.

The support wire 140 can firmly support the enclosure 130 that is seated on the channel base 120 by pulling the enclosure 130 to the floor.

One end of the support wire 140 may be fixed to an insert bolt 135 provided at each corner of the upper surface of the housing 130 and the other end of the support wire 140 may be fixed to a base plate May be fixed to a floor located at a vertically lower portion through the through-hole of the housing 110.

At this time, anchor bolts to which the support wire 140 is to be fixed may be provided on the floor, and the support wires may be fixed to the floor in a manner that support wires are connected to the anchor bolts. In order to prevent the support wire 140 from being visible from the outside, It can be installed at each corner portion.

The support wire 140 may be provided with a support spring 145 at the center of the support wire 140 to provide an elastic force to the support wire 140 so that the support wire 140 can be pulled by the elastic force .

The support wire 140 is provided with an elasticity adjusting mechanism 147 to adjust the elasticity of the support spring 145 to pull the elastic body 130 in a manner to adjust the length of the support wire 140.

The elasticity adjusting mechanism 147 may be realized by a turnbuckle capable of reducing or increasing the length of the support wire 140 in accordance with the direction in which both ends of the support wire 140 are screwed and screwed together during rotation.

3 and 4, the seismic resistant switchboard 100 according to the embodiment of the present invention may include a wire 150 per wire.

The wire rope 150 per wire increases the elastic force of the support spring 145 when an earthquake occurs, so that the supporting force for supporting the wire 130 by the support wire 1140 can be increased.

The wire guide 150 may be installed on the inner wall surface of the housing 130 on which the support wires 140 are installed and the wire guide 150 for each wire is connected to the pulling roller 151 and the drive motor 155, . ≪ / RTI >

The pulling roller 151 may be formed with a wire hole 153 passing through the support wire 140 at a center portion of the pulling roller 151. The pulling roller 151 is wound around the wire hole 153, The elastic force of the support spring 140 can be increased by forcibly stretching the support spring 145 to which the support wire 140 is connected by pulling the support wire 140 by pulling the support wire 140.

When the pulling roller 151 is rotated, the support wire 140 is wound around the pulling roller 151 and the support wire 140 is shortened, whereby the support spring 140 145) can be forcibly elongated.

The driving motor 155 can rotate the pulling roller 151 and the driving motor 155 is connected to the pulling roller 151 by a plurality of gears to change the magnitude and direction of the power of the driving motor 155 So that the pulling roller 151 can be rotated.

On the other hand, the wire pulling aperture may include an operation detection sensor (not shown).

The operation detection sensor senses the winding force of the support wire 140 applied to the drive motor 155 or the operation time of the drive motor 155 so as to adjust the length of the pulling roller 151 pulling the support wire 140 have.

For example, when the operation detecting sensor is configured to sense the winding force of the support wire 140, if the winding force of a predetermined winding force or more occurs, the operation of the drive motor 155 is stopped, So that the supporting wire 140 can be prevented from being disconnected.

Further, when the operation detection sensor is configured to sense the operation time of the drive motor 155, the drive motor 155 rotates the pulling roller 151 for a predetermined time only, It is possible to prevent disconnection.

As shown in FIG. 2, the seismic resistant switchboard 100 according to the embodiment of the present invention may include an earthquake detection sensor 160.

The earthquake-detection sensor 160 may detect the occurrence of an earthquake in a form that is installed in the enclosure 130 and detects the vibration transmitted to the enclosure 130.

On the other hand, the earthquake detection sensor 160 can control the wire 150 per wire based on the information sensed by the earthquake sensor, and the earthquake detection sensor 160 can detect the earthquake , And the wire rope 150 can be controlled to operate.

5 and 6, a dustproof switch cabinet 100 according to an embodiment of the present invention includes a plurality of ground cables 32 that perform grounding from a water distribution mechanism 200 through a base plate 110 , 34, 36 may be grounded to ground.

In the embodiment, three grounding cables 32, 34 and 36 are shown connected to the floor and grounded from the water distribution mechanism 200.

A clip member 58 for restraining and fixing the first ground cable 32, the second ground cable 34 and the third ground cable 36 is provided on the upper portion of the base plate 110, The first block 58 includes a first block 58a having a first groove 58c on which the first ground cable 32, the second ground cable 34 and the third ground cable 36 are seated, A second block 58b rotatably installed in the block 58a and having a second groove 58d opposed to the first groove 58c and a second block 58b having a first ground cable 32, The first block 58a and the second block 58b are kept coupled so as to confine the third grounding cable 34 and the third grounding cable 36 and the detector 58 is connected to the first block 58a and the second block 58b And a detachable portion 59 for fixing the first and second elastic members 56 and 56 to each other.

The first block 58a and the second block 58b are formed in a shape of a long hexagon in the left and right direction, one end of which is rotatably connected by a hinge portion, and three first groove portions 58c are formed on the surfaces facing each other, And the second trench 58d are formed.

Therefore, when the first block 58a and the second block 58b are rotated in close contact with each other, the first groove 58c and the second groove 58d are connected to each other to form a cylindrical shape extending from the top surface to the bottom surface of the clip member 58 The second earthing cable 34 and the third earthing cable 36 are formed in the through-hole of the first earthing cable 32, the second earthing cable 34, and the third earthing cable 36, respectively.

The three grounding cables 32, 34 and 36 are connected to the three through-holes formed as described above by passing the first grounding cable 32, the second grounding cable 34 and the third grounding cable 36, respectively, And is disposed adjacent to the base plate 110 and the channel base 120 so as to be grounded on the ground.

A fixing portion 90 is provided on the rear surface of the second block 58b to fix the clip member 58 to the lower portion of the base plate 110. The fixing portion 90 is installed below the base plate 110 An insulator 92 made of a nonconductive material, and a connection case 94 supported by the water distribution mechanism 200 to support the insulator so as to protrude and retract.

The projecting and retreating shaft 92a protruding from the insulator 92 is slidably inserted into the connection case 94 and is provided between the engagement protrusion formed at the inner end of the projecting and retreating shaft 92a and the inner wall of the connection case 94, 2 elastic member 92b is interposed to provide an elastic force for pressing the projecting and retracting shaft 92a and the insulator 92 toward the connection case 94 side.

Therefore, the first ground cable 32, the second ground cable 34 and the third ground cable 36 are grounded by passing through the lower portion of the base plate 110 in a state of being adjacent to each other by the single clip member 58 The second ground cable 34 and the third ground cable 36 can be effectively detected by the detector 56 provided at one side of the clip member 58 .

The clip member 58 is provided with a detachable portion 59 to provide a detector 56 adjacent to the first block 58a and the second block 58b. Is provided with a pair of sliding groove portions 59a formed parallel to the outer ends of the first block 58a and the second block 58b and a pair of sliding groove portions 59b formed on the outer wall of the detector 56 to be inserted into the sliding groove portion 59a And the upper end of the first block 58a and the second block 58b are laterally opened to connect the upper ends of the pair of sliding groove portions 59a to each other, And a connecting rod 59d which is seated on the connecting groove 59c and connects the upper ends of the pair of sliding protrusions 59b so that the detector 56 is mounted on the upper ends of the first block 58a and the second block 58b. ).

Therefore, after the first ground cable 32, the second ground cable 34 and the third ground cable 36 are seated in the second groove 58d of the second block 58b, the first block 58a is rotated A pair of sliding tongues 59a are disposed adjacent to each other and a pair of sliding protrusions 59b extending downward from the detector 56 are disposed on the respective sliding tongues 59b The second ground cable 34 and the third ground cable 36 while restricting the first block 58a and the second block 58b in close contact with each other by inserting the first ground cable 32, .

As described above, in the present embodiment, since the first block 58a and the second block 58b are constrained in a state in which the first block 58a and the second block 58b are closely contacted by the pair of sliding groove portions 59a and the pair of sliding protrusions 59b, The first block 58a and the second block 58b can be engaged without the fastening member 78 of the first block 58a.

The first block 58a and the second block 58b are extended from a ground panel 37 provided in a mounting groove 59f formed in the center of the connecting groove 59c inwardly and concave, The detector 56 is provided with the sensing cable 32a, 34a and 36a installed to surround the hole and the sliding projection 59b is provided with the terminal panel 59e electrically connected to the ground panel 37 in a detachable manner. The ground panel 37 and the terminal panel 59e are electrically connected while being in contact with each other.

Three sensing cables 32a, 34a and 36a are provided and three sensing cables 32a, 34a and 36a are connected to the first ground cable 32, the second ground cable 34 and the third ground cable 34a, The three sensing cables 32a, 34a and 36a respectively transmit sensing signals to the detector 56 so that the sensing signal transmitted from the detector 56 is transmitted to the first ground cable 34a, and 36a of the second ground cable 32, the second ground cable 34, and the third ground cable 36, the partial discharge signal is detected.

Therefore, the operator working in the central control room can detect that the detection signal transmitted from the detector 56 is not transmitted to any one of the first ground cable 32, the second ground cable 34, or the third ground cable 36, 36a. Thus, it becomes easy to recognize the portion where the repair work of the switchboard 100 is to be performed.

The operation and effects of the above-described respective structures will be described.

In the seismic switchboard 100 according to the embodiment of the present invention, the channel base 120 is spaced apart from the floor by an air damper 125 and the base plate 110 is fixed to the upper portion of the channel base 120, (115).

The water distribution mechanism 200 may be installed on the upper portion of the base plate 110 and the water distribution mechanism 200 may be enclosed in the housing 130 to be protected by the housing 130.

One end of the support wire 140 is fixed to the inner surface of the upper portion of the housing 130 by the insert bolt 135 and the other end of the support wire 140 passes through the through hole of the base plate 110, And is fixed to the bolt.

A support spring 145 and an elastic force adjusting mechanism 147 are provided on the support wire 140 to support the envelope 130 by the elastic force by the support spring 145 and by the elastic force adjusting mechanism 147, The elastic force of the wire 140 can be adjusted.

A supporting wire 140 is attached to the wire hole 153 of the pulling roller 151 in the wire 150 per wire, And is installed through.

A plurality of ground cables 32, 34 and 36 are connected to the bottom of the base plate 110 so as to be grounded through the base plate 110 and the channel base 120, 32, 34, and 36 may be fixedly installed by a clip member 58 capable of detecting a leakage current.

In the seismic resistant switchboard 100 constructed as described above, when an earthquake occurs, the vibration of the floor is primarily absorbed by the air damper 125 supporting the channel base 120 from the floor, And secondly the buffer damper 115 for supporting the base plate 110 in the channel base 120 absorbs and is prevented from being transmitted to the housing 130. [

Since the housing 130 is fixed by the support wire 140 together with the air damper 125 and the buffer damper 115, the support spring 145 of the support wire 140 absorbs the vibration when the earthquake occurs The vibration resistance can be improved.

On the other hand, in the case of an earthquake in which a small vibration occurs, the air damper 125, the buffer damper 115, and the support spring 145 can perform buffering, but in the case of an earthquake The earthquake detection sensor 160 detects the earthquake and activates the wire 150 per wire.

When the wire 150 per wire is operated, the driving motor 155 rotates the pulling roller 151 installed through the support wire 140, and the supporting wire 140 is wound on the rotating pulling roller 151 The elastic force of the support spring 145 is increased by stretching the support spring 145 in such a manner that the support wire 145 is pulled up to pull the support wire 140 to support the housing 130 with the stronger force on the floor, It is possible to prevent breakage.

At this time, the drive motor 155 is controlled by the operation detection sensor, and the operation of the wire 150 per wire is stopped according to a predetermined time or a predetermined traction force to prevent disconnection of the support wire 140.

Therefore, the seismic resistant switchboard 100 according to the embodiment of the present invention absorbs the vibration transmitted to the water power distribution mechanism 200 by the air damper 125 and the buffer damper 115 when an earthquake occurs, It is possible to prevent breakage of the battery 200.

The support wire 140 is connected to the housing 130 to firmly support the housing 130 and the support spring 145 installed on the support wire 140 absorbs the impact and is transmitted to the housing 130. [ It is possible to absorb vibration.

In addition, when an earthquake of predetermined vibration occurs, the seismic sensor 160 operates the wire 150 per wire to increase the tensile force of the support wire 140, thereby more firmly supporting the enclosure 130, It is possible to prevent breakage caused by the breakage.

Further, the ground cables 32, 34, 36 can be fixed by the clip member 58 to sense the leakage current.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And all changes and modifications to the scope of the invention.

100: seismic distribution board 110: base plate
120: air damper 130: enclosure
131: opening / closing door 132: display
133: view window 135: bracket
136: Disengaging groove 140: Support wire
145: support spring 147: elastic force adjusting mechanism
150: Kimgu 151 per wire: pulling roller
153: wire ball 155: drive motor
160: earthquake detection sensor 200: water distribution device

Claims (3)

A base plate on which the water distribution mechanism is seated,
An enclosure provided with an opening and closing door for opening and closing the inside of the water distribution mechanism accommodated and accommodated in the base plate,
A buffer damper installed on the bottom surface of the base plate for absorbing vibrations transmitted to the electric power tool,
A channel base supported by the buffer damper and on which the base plate is seated,
An air damper installed between the corners of the channel base and the floor to absorb vibrations transmitted from the floor to the channel base by air to be charged,
A supporting wire extending from an upper inner surface of the housing to the bottom of the base plate to support the air damper to support the housing,
A support spring installed at an intermediate portion of the support wire to provide an elastic force to the support wire so that the support wire supports the envelope by an elastic force,
An elasticity adjusting mechanism installed on the supporting wire to adjust an elastic force of the supporting spring in a form of adjusting a length of the supporting wire,
A seismic sensor installed in the housing for sensing an earthquake, and
Wherein the supporting wire is pulled to increase the supporting force of the support wire to support the supporting member when vibration of the earthquake sensed by the earthquake sensor occurs at a predetermined vibration or more, Wherein the first and second branching portions are connected to each other. delete The method according to claim 1,
The wire pulling-
A pulling roller in which a wire ball is formed through which the support wire passes,
And a drive motor that rotates the pulling roller so that the support wire passing through the pulling roller is wound by the rotation of the pulling roller to pull the support wire.

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