KR101355191B1 - Electricity panel quakeproof apparatus with auto-recovery function - Google Patents

Abstract

The present invention relates to an electricity panel quakeproof apparatus with an auto-recovery function. According to the embodiment of the present invention, the electricity panel quakeproof apparatus includes a quakeproof apparatus housing (100) having a DC motor mounting groove; a quakeproof driving device (200); a quake impact absorption device (300); and a quake detection control device (400).

Description

Switchgear earthquake proofing device with automatic return function {Electricity Panel Quakeproof Apparatus with Auto-Recovery Function}

The present invention relates to a switchgear seismic apparatus, and more particularly, the present invention relates to a switchgear apparatus having a heavy load according to whether or not an earthquake occurs. The present invention relates to a switchgear earthquake proofing device having an automatic return function to stably protect a facility from an earthquake.

In general, switchgear equipment is a device that operates, controls and monitors the high voltage received from various industrial facilities, schools, hospitals, group residential complexes, etc. to a low pressure that meets the ratings of the electrical facilities, so that the electrical facilities and electrical products can be safely used. It is installed on the inner and outer foundation floor of building.

So far, the switchgear facilities have not been applied to earthquake-resistant design because they are installed in most buildings. However, due to the warming and abnormal changes in the global environment, the earthquake site and its activity area are not clear. In addition to the construction of an advanced earthquake response system, the company has also introduced mandatory seismic design for buildings with more than three stories.

Seismic design in switchgear equipment refers to technologies including seismic design that absorbs and distributes seismic power delivered to the switchgear through a building in the event of an earthquake, and seismic design that attenuates or dissipates seismic power by prolonging the intrinsic cycle for seismic power. Numerous patented technologies have been developed.

For example, the switchgear seismic design patent technologies, including Korean Patent Publication No. 10-1011388, apply only a coil type seismic spring or a leaf spring with a seismic isolation function. When supporting a switchgear or an electrical installation with a heavy load with only a coil-type seismic spring at all times, the spring is gradually contracted, and when the earthquake occurs, there is a problem that the elastic force cannot be exerted.

Therefore, the present invention proposes a switchgear earthquake proofing device having a completely new automatic return function to support the switchgear facility by alternating the seismic drive device and the earthquake shock absorbing device depending on whether an earthquake occurs.

The present invention has been made to solve the above problems, and in particular, according to the command of the control unit to support the switchgear equipment having a heavy load depending on whether the earthquake occurs or has a seismic drive device having an automatic return function and a seismic isolation function It is an object of the present invention to provide a switchgear earthquake proofing device having an automatic return function that reliably protects a power distribution board installation from an earthquake by constructing a plurality of earthquake shock absorbing devices.

In order to solve the above problems, according to the characteristics of the present invention, in the switchgear seismic device, the seismic device has a strength enough to withstand an earthquake and use a steel or casting material of a square or cylindrical shape, The first earthquake shock absorber mounting groove 110, the middle of the spiral barbell gear mounting groove 120, the upper and outer diameter ball screw mounting groove 130 and the second earthquake shock absorber mounting groove 140, On one side and the seismic gear housing 100 is formed in each of the reduction gear and the DC motor mounting groove 150; The inner and outer diameter ball screw mounting grooves 130 of the seismic device housing are equipped with outer diameter ball screws 210 and inner diameter ball screws 220 for forward / backward rotation and vertical movement, respectively, and the spiral barbell gear mounting grooves. The spiral barbell gear 240 for converting the horizontal rotational motion by the motor drive into the vertical rotational motion is connected to the first shaft 230 connected to one side of the inner diameter ball screw 220 and mounted on the lower shaft 120. The gear and DC motor mounting groove 150 is a seismic drive device 200 is provided with a reduction gear and a DC motor 250 connected to the second shaft 260 connected to one side of the spiral barbell gear 240; The first seismic shock absorbing device mounting groove 110 of the seismic housing has a first pad 310 having a seismic isolation function that primarily absorbs seismic force, and is seated on the first pad and attenuates seismic force by prolonging its own period. The first coil spring 320 and the first and second disks 321 and 322 for balancing the springs on the upper and lower portions of the first coil spring and the first coil spring to mitigate the shock transmitted to the seismic housing and the switchgear facility. The second earthquake shock absorbing device mounting groove 140 is mounted on the second pad 330 and the second pad having a seismic isolation function that absorbs seismic power secondarily, and reduces the seismic force by prolonging its own period. Seismic shock absorption provided with a second coil spring (340) for alleviating the shock transmitted to the switchgear facility and the third and fourth disks (341, 342) for balancing the spring on the upper and lower portions of the second coil spring Value (300) and; One side of the DC motor mounted on the reduction gear and the DC motor mounting groove 150 of the seismic housing and the first information mounted on the lower part of the bracket 600 for supporting the switchboard equipment and the information of the earthquake detection sensor 420 embedded in the ground The control unit 410 is provided to receive the information of the limit switch 430 and the second limit switch 440 mounted on the inner and outer diameter ball screw mounting groove 130 to control the forward and reverse rotation of the DC motor It provides an earthquake-proof switchgear having an automatic return function characterized in that it comprises an earthquake detection control device (400).

Preferably, the upper portion of the seismic device housing 100, the second coil-type spring protective cover mounting groove for protecting the second coil-type spring 340 mounted in the second earthquake shock absorber mounting groove 140 141 is molded, and the second coil-type spring protective cover 142 mounted in the second coil-type spring protective cover mounting groove is made of plastic.

Preferably, in the outer diameter ball screw 210 and the inner diameter ball screw 220, the outer diameter ball screw 210 performs vertical movement by forward and reverse rotation of the inner diameter ball screw 220 driven by the DC motor. By supporting the switchgear or characterized in that the automatic return.

Preferably, the first pad 310 is a rubber so as to reduce the seismic force transmitted to the first coil-type spring 320 and the seismic isolation function that primarily absorbs the seismic force transmitted to the seismic housing (100). Processed in a circular shape using a material, characterized in that the processing is thicker than the base surface of the seismic housing.

Preferably, the second pad 330 is processed into a circular shape of a rubber material having a seismic isolation function to secondarily absorb the seismic force transmitted to the second coil-type spring 340, the outer diameter ball screw 210 And the inner diameter ball screw 220 is characterized in that the perforated in the center to pass through.

The present invention as described above by supporting a switchgear facility having a heavy load according to whether an earthquake occurs or by configuring a seismic shock absorbing device and an earthquake detection control device having an earthquake-proof drive device having an automatic return function and seismic isolation function ,

(1) Second coils embedded in seismic shock absorbers that normally support the switchgear with heavy loads so that the ball screw of the earthquake-resistant drive device supports the switchgear with heavy loads. It reduces the fatigue of the spring and protects it from losing the inherent elasticity of the second coil spring.

(2) In the event of an earthquake, the earthquake detection sensor and the control unit automatically return the inner and outer diameter ball screws of the seismic drive system, and the switchgear system has a heavy load by the second coil spring of the seismic shock absorber. By supporting only during the earthquake, the power distribution board equipment is reliably protected from the earthquake.

(3) In the present invention, by constructing a plurality of seismic shock absorbers having a seismic isolation function, the seismic force transmitted through the ground or concrete floor is first and second absorbed, and the seismic wave is transmitted through the first and second coil springs. By lengthening the intrinsic cycle to alleviate the shock delivered to the switchgear and reduce or dissipate seismic power, there is an effect to reliably protect the switchgear equipment.

1 is a switchgear seismic apparatus according to the prior art
2 is a sectional view of a seismic device housing for a switchgear seismic device having an automatic return function according to a preferred embodiment of the present invention.
3 is a view showing a seismic drive device for a switchgear seismic device having an automatic return function according to an embodiment of the present invention;
4 is a view showing an earthquake shock absorbing device for a switchgear seismic device having an automatic return function according to an embodiment of the present invention.
5 is a view showing a seismic isolator (rubber pad) for the switchgear seismic device having an automatic return function according to a preferred embodiment of the present invention
6 is a view showing an earthquake detection control device for a switchgear earthquake proofing device having an automatic return function according to a preferred embodiment of the present invention.
FIG. 7 is a block diagram illustrating a control operation of FIG. 6.
8 is a view showing the fixing means for the switchgear seismic device having an automatic return function according to a preferred embodiment of the present invention
9 is a view to help understand the switchgear earthquake proofing device having an automatic return function according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the constituent elements of the drawings, it is to be noted that the same constituent elements are denoted by the same reference numerals even if they are shown in different drawings. In the following description of the present invention, a detailed description of known configurations and functions will be omitted when it is determined that the gist of the present invention may be obscured.

2 to 9, the technical solution of the switchgear earthquake proofing device having an automatic return function according to an embodiment of the present invention, the seismic device housing 100, seismic drive device 200, earthquake shock absorption It is composed of an apparatus 300, an earthquake detection control device 400 and the fixing means 500.

First, referring to FIG. 2, the seismic device housing 100 is a body means of a kind of seismic device for mounting various seismic devices, and has a strength that can sufficiently withstand an earthquake and has a rectangular or cylindrical steel or Use casting materials.

Various mounting grooves of the body are formed into a circular or rectangular shape, the first earthquake shock absorbing device mounting groove 110 is formed in the lower portion of the body, the spiral barbell gear mounting groove 120 is formed in the middle In the upper portion, the inner and outer diameter ball screw mounting grooves 130 and the second earthquake shock absorbing device mounting grooves 140 are respectively molded. In addition, the reduction gear and the DC motor mounting groove 150 is formed on one side of the body.

Here, the seismic device housing 100 according to an embodiment of the present invention, the installation standards for the switchgear equipment support brackets (50 ~ 100mm) in order to prevent overturning or shaking of the switchgear equipment and to stably protect the switchgear equipment during an earthquake. The height h of the seismic device housing 100 is designed to be 80 to 100 mm, and a part of the seismic device housing 100 may be embedded in the ground or concrete floor.

In addition, the seismic device housing 100 is formed by molding the first / second shaft through holes 121 and 151 into which the first and second shafts 230 and 260 are inserted.

Referring to FIG. 3, the seismic drive device 200 is a means for performing a function of stably supporting or automatically returning a switchgear facility in response to a command of a control unit according to whether an earthquake occurs. It is provided with the outer diameter ball screw 210 and the inner diameter ball screw 220 mounted in the outer diameter ball screw mounting groove 130 and performing a forward / reverse rotation movement and an up-down movement, respectively.

Here, the thread (Pitch) of the inner diameter ball screw 220 is limited to three to four because of the contact resistance between the outer diameter ball screw 210 and the inner diameter ball screw 220 or the inner and outer diameters in preparation for the load of the switchgear facility Reduces contact frictional force according to the load between the ball screw (210,220), and when the earthquake occurs, when the clearance between the switchgear installation support bracket 600 and the outer diameter ball screw 210 caused by the vibration of a certain interval to obtain a smooth rotational force to obtain an outer diameter ball This is to lower the screw 210 quickly so that the second coil spring 340 supports the switchgear installation.

In addition, the spiral barbell gear mounting groove 120 of the seismic device housing 100 is equipped with a spiral barbell gear 240 for converting a horizontal rotational motion by a DC motor drive into a vertical rotational motion, and the spiral barbell The gear 240 is connected to the first shaft 230 connected to one side of the inner diameter ball screw 220.

In addition, a reduction gear and a DC motor 250 connected to the second shaft 260 connected to one side of the spiral barbell gear 240 are provided in the reduction gear and the DC motor mounting groove 150 of the seismic device housing 100. Configure the seismic drive device 200 is provided respectively.

2 and 3, a first shaft through hole 121 is formed between the inner and outer diameter ball screw mounting groove 130 and the spiral barbell gear mounting groove 120 of the seismic device housing 100. do. The first shaft through hole 121 is for receiving a first shaft 230 connected to one side (bottom) of the inner diameter ball screw 220 and one side (top) of the spiral barbell gear 240. . In addition, the first shaft through hole 121 is provided with a first bearing 270 to support the first shaft 230 and obtain a smooth rotational force.

As described above, a feature according to a preferred embodiment of the present invention is to support a switchgear device having a heavy load of 1 to 10 tons by an inner and outer diameter ball screw of an earthquake-resistant drive device 200 without an earthquake. By reducing the fatigue of the coiled spring built into the seismic shock absorbing device 300, which is entirely dependent on the coiled spring or the leaf spring as in the prior art, the coiled spring is stably protected, and the motor is driven in the event of an earthquake. The earthquake-resistant drive device 200 operated by the automatic return to not support the switchboard equipment support bracket 600, and at the same time causes the second coil-type spring 340 of the earthquake shock absorber 300 to earthquake the switchgear equipment By temporarily supporting only during the occurrence of the earthquake, the earthquake can be prevented from losing the natural elasticity of the coiled spring. It has the characteristic to immediately exhibit the inherent elastic function of the coiled spring during birth.

Here, the strength and elastic force of the first and second coil springs 320 and 340 of the seismic shock absorbing device 300 according to the embodiment of the present invention may be designed differently depending on the load of the switchgear installation installed in the field.

Referring to FIG. 4, the earthquake shock absorbing device 300 is a means for absorbing the earthquake force when an earthquake occurs and reducing the earthquake force by reducing the earthquake force by lengthening the intrinsic period. The absorber mounting groove 110 is mounted on the first pad 310 and the first pad having a seismic isolation function that primarily absorbs and attenuates seismic force to attenuate the seismic force and is transmitted to the seismic housing and the switchgear facility. A first coil spring 320 for relieving an impact by lengthening an intrinsic period of the seismic force and first and second disks 321 and 322 for balancing the spring are mounted on the upper and lower portions of the first coil spring.

In addition, the second earthquake shock absorbing device mounting groove 140 of the seismic device housing 100 is seated on the second pad 330 and the second pad having a seismic isolation function to absorb and attenuate seismic power secondarily. A second coil spring 340 for reducing the impact by attenuating and extending the intrinsic period of the seismic force transmitted to the seismic housing and the switchgear facility and the upper and lower portions of the second coil spring to balance the spring Third / fourth disks 341 and 342 are mounted, respectively.

Here, the first to fourth disks 321, 322, 341 and 342 may be carbon fiber reinforced resin or aluminum reinforced to attenuate the seismic force to some extent and stably hold the circular shape of the first and second coil springs.

As such, a feature according to an embodiment of the present invention is a first / second to have a seismic isolation function having first and second pads 310 and 330 for absorbing and attenuating seismic forces on a primary and secondary basis and lengthening inherent periods for seismic forces. 2 coil type springs (320,340) and the first to fourth disks (321,322,341,342) to attenuate the seismic force to some extent to absorb the seismic force transmitted to the switchgear facility primarily, and to attenuate or dissipate secondaryly, switchgear facility It can be reliably protected from earthquakes.

Referring to FIG. 5, the first pad 310 and the second pad 330 are means having a seismic isolation function for absorbing seismic force, and the first pad 310 is transmitted to the seismic device housing 100. It performs a seismic isolation function that primarily absorbs seismic forces.

In addition, the first pad 310 is processed in a circular shape using a rubber material so as to absorb the seismic force transmitted to the first coil-type spring 320, but thicker than the base surface of the seismic housing.

In addition, the second pad 330 is processed into a circular rubber material having a seismic isolation function to secondarily absorb the seismic force transmitted to the second coil spring 340, the outer diameter ball screw 210 and the inner diameter ball The screw 220 is perforated in the center to penetrate.

The rubber material applied to the first and second pads 310 and 330 may be synthetic rubber BR (Butadimen Rubber), synthetic rubber NBR (Nitrile Butadiene Rubber), or urethane rubber (Urethane Rubber).

Referring to FIG. 6, the earthquake detection control device 400 is a control means for controlling the seismic drive device 200 when an earthquake with a certain intensity or more invades the switchgear facility, and the reduction gear and the DC motor of the seismic housing. The reduction gear mounted on the mounting groove 150 and the DC motor 250 are mounted on one side.

In addition, the earthquake detection control device 400, the first limit switch 430 mounted on the bottom of the information and the earthquake detection sensor 420 embedded in the ground or concrete floor and the switchboard installation support bracket 600 and the inner • Receiving the information of the second limit switch 440 mounted on the outer diameter ball screw mounting groove 130, the forward and reverse rotation of the DC motor is controlled.

Here, referring to FIG. 7, the operation of the earthquake detection control device 400 will be described. When there is no earthquake, the controller 410 drives the reduction gear and the DC motor 250 to spiral spiral gear 240. ) By rotating the inner diameter ball screw 220 connected to the outer diameter ball screw 210 is raised to support the switchgear facility, wherein the outer diameter ball screw 210 is mounted on the bottom of the bracket 600 for the switchgear facility support When the 1 limit switch 430 is touched, the reduction gear and the DC motor 250 stop to allow the outer diameter ball screw 210 to stably support the switchgear facility.

In addition, when a strong earthquake of a certain magnitude or more occurs, the controller 410 receives information from the earthquake detection sensor 420 and drives the reduction gear and the DC motor 250 to connect the inner diameter ball screw connected to the spiral barbell gear 240. The reverse rotation of the 220 to lower the outer diameter ball screw 210 supporting the switchgear facility to cause the second coil-type spring 340 of the earthquake shock absorbing device 300 to automatically support the switchgear facility earthquake Against. At this time, when the outer diameter ball screw 210 is lowered and the second limit switch 440 mounted on the lower end of the inner and outer diameter ball screw mounting groove 130 of the seismic device housing 100 is touched, the reduction gear and the DC motor ( 250 is stopped to allow the second coiled spring 340 to support the switchgear facility to counteract an earthquake.

And when no more earthquake is detected from the earthquake detection sensor, the outer diameter ball screw 210 of the seismic drive device 200 commanded by the controller 410 is raised to support the switchgear facility to support the second coil spring 340. Protect it.

On the other hand, the first coil type spring 320 according to an embodiment of the present invention performs a function of primarily reducing the seismic force by lengthening the intrinsic period for the seismic force, irrespective of the load distribution panel equipment load, seismic housing housing (100) The bottom is configured to protect the first coiled spring 320 instead.

Referring to FIG. 8, the fixing means 500 is a means for fixing a switchgear seismic device having an automatic return function according to an embodiment of the present invention to the installation bracket 600 for supporting the ground or concrete floor and the switchboard. The bolts 510 and 520 are fastened.

On the other hand, Figure 9 is a view for helping the understanding of the switchgear seismic device having an automatic return function according to an embodiment of the present invention.

Here, the second coil-type spring protective cover 142 shown in FIG. 9 is a consumable that is damaged by a flow force of the switchboard installation support bracket 600 when an earthquake occurs by molding into a thin plastic product. The switchgear facility fixed to the second coil type spring 340 and the third disk 341 of the seismic shock absorbing device 300 by the hexagonal bolt 520 at the same time that the second coil type spring protection cover 142 is damaged. The support bracket 600 is supported by the second coiled spring 340 of the seismic shock absorbing device 300. And when the earthquake stops according to the command of the control panel switchgear 600 is automatically supported by the outer diameter ball screw 210 of the seismic drive device 200.

With reference to Figures 2 to 9, it will be described in detail the operation of the switchgear seismic device having an automatic return function according to an embodiment of the present invention.

The present invention is a seismic device housing (100) which is a body means of a kind of seismic device for mounting various seismic devices, a seismic drive means for performing a function to stably support or automatically return to switchgear equipment depending on whether an earthquake occurs Apparatus 200, the first and second coil type to reduce or eliminate the seismic force by extending the natural period with the first pad 310 and the second pad 330 having a seismic isolation function to absorb the seismic force in the event of an earthquake By constructing an earthquake shock absorbing device 300 having a spring (320, 340) means and an earthquake detection control device 400 that is a control means for controlling the seismic drive device 200 when the earthquake of a certain intensity or more invaded the switchgear facility, When there is no earthquake, by supporting the switchgear equipment by the inner and outer diameter ball screw of the seismic drive device 200, unlike the prior art, the coil-type spring is stably protected and If the result is to be immediately exert its own elastic function of the coil-like spring when, by an earthquake causes the second coiled spring 340 of seismic shock absorbers (300) for supporting a bracket for supporting switchgear equipment. In addition, the first and second coil type springs 320 and 340 having the first and second pads 310 and 330 having primary and secondary pads 310 and 330 absorbing and attenuating the seismic force and the natural periods for the seismic force are increased. By constructing the first to fourth disks 321, 322, 341, 342 to reduce the degree of accuracy, the seismic force transmitted to the switchgear facility is absorbed and attenuated or dissipated, thereby providing a unique feature to stably protect the switchgear facility from earthquakes.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: seismic housing
110: first earthquake shock absorbing device mounting groove
120: spiral barbell gear mounting groove 121: first shaft through hole
130: internal and external ball screw mounting groove
140: second earthquake shock absorbing device mounting groove
141: 2nd coil type spring protective cover groove
142: second coil spring protection cover
150: reduction gear and DC motor mounting groove 151: second shaft through hole
160: seismic device housing fixing bolt groove 200: seismic drive device
210: outer diameter ball screw 220: inner diameter ball screw
230: first shaft 240: spiral barbell gear
250: reduction gear and DC motor 260: second shaft
300: earthquake shock absorbing device 310,330: first / second pad
320,340: First / second coil spring 321,322: First / second disc
341,342: third and fourth disk 400: earthquake detection control device
410: control unit 420: earthquake detection sensor
430, 440: first / second limit switch 500: fixing means
600: bracket for supporting switchgear facility 700: concrete floor

Claims (5)

In the switchgear seismic device,
The seismic device has sufficient strength to withstand an earthquake and uses a steel or casting material having a rectangular or cylindrical shape, the first seismic shock absorber mounting groove 110 in the lower portion, the spiral barbell gear mounting groove 120 in the middle ), The inner and outer diameter ball screw mounting groove 130 and the second earthquake shock absorbing device mounting groove 140, one side of the seismic gear housing and the DC motor mounting groove 150 is formed, respectively, seismic housing (100) and;
The inner and outer diameter ball screw mounting grooves 130 of the seismic device housing are equipped with outer diameter ball screws 210 and inner diameter ball screws 220 for forward / backward rotation and vertical movement, respectively, and the spiral barbell gear mounting grooves. The spiral barbell gear 240 for converting the horizontal rotational motion by the motor drive into the vertical rotational motion is connected to the first shaft 230 connected to one side of the inner diameter ball screw 220 and mounted on the lower shaft 120. The gear and DC motor mounting groove 150 is a seismic drive device 200 is provided with a reduction gear and a DC motor 250 connected to the second shaft 260 connected to one side of the spiral barbell gear 240;
The first seismic shock absorbing device mounting groove 110 of the seismic housing has a first pad 310 having a seismic isolation function that primarily absorbs seismic force, and is seated on the first pad and attenuates seismic force by prolonging its own period. The first coil spring 320 and the first and second disks 321 and 322 for balancing the springs on the upper and lower portions of the first coil spring and the first coil spring to mitigate the shock transmitted to the seismic housing and the switchgear facility. The second earthquake shock absorbing device mounting groove 140 is mounted on the second pad 330 and the second pad having a seismic isolation function that absorbs seismic power secondarily, and reduces the seismic force by prolonging its own period. Seismic shock absorption provided with a second coil spring (340) for alleviating the shock transmitted to the switchgear facility and the third and fourth disks (341, 342) for balancing the spring on the upper and lower portions of the second coil spring Value (300) and;
One side of the DC motor mounted on the reduction gear and the DC motor mounting groove 150 of the seismic housing and the first information mounted on the lower part of the bracket 600 for supporting the switchboard equipment and the information of the earthquake detection sensor 420 embedded in the ground The control unit 410 is provided to receive the information of the limit switch 430 and the second limit switch 440 mounted on the inner and outer diameter ball screw mounting groove 130 to control the forward and reverse rotation of the DC motor An earthquake-proof switchgear with an automatic return function, characterized in that it comprises an earthquake detection control device (400).
The method according to claim 1,
A second coil-type spring protection cover mounting groove 141 for protecting the second coil-type spring 340 mounted on the second earthquake shock absorbing device mounting groove 140 is formed at an upper portion of the seismic device housing 100. Molded, the second coil-type spring protective cover 142 mounted in the protective cover mounting groove is a switchgear seismic device having an automatic return function, characterized in that the plastic.
The method according to claim 1,
The outer diameter ball screw 210 and the inner diameter ball screw 220 are supported by the outer diameter ball screw 210 to move up and down by forward and reverse rotation of the inner diameter ball screw 220 driven by the DC motor to support the switchboard. Switchgear earthquake proofing device having an automatic return function characterized in that the automatic return.
The method according to claim 1,
The first pad 310 uses a rubber material so as to reduce the seismic force transmitted to the first coil-type spring 320 and the seismic isolation function to primarily absorb the seismic force transmitted to the seismic housing (100). Switchgear earthquake proofing device having an automatic return function, characterized in that the circular processing, but thicker than the base surface of the seismic housing.
The method according to claim 1,
The second pad 330 is processed in a circular shape of a rubber material having a seismic isolation function to secondarily absorb the seismic force transmitted to the second coil spring 340, the outer diameter ball screw 210 and the inner diameter ball screw Switchgear earthquake proofing device having an automatic return function, characterized in that the center is perforated so that the 220 is penetrated.

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