KR102106523B1 - Distribution Board with Earthquake-Proof Device used Steel Ball(High-voltage Switchgear, Low-voltage Switchgear, Motor Control Center, Cabinet Panel) - Google Patents

Abstract

The present invention relates to a water switchboard (high voltage board, low voltage board, motor control panel, distribution panel) equipped with a seismic device using a steel ball capable of effectively reducing vibration in the horizontal direction transmitted to the water switchboard due to an earthquake or the like.
The seismic device of a switchgear equipped with a seismic device using a steel ball according to the present invention for solving the above problems, a base plate having a predetermined size in which a long hole is formed, and a protrusion having a predetermined height on an upper surface of the base plate A lower bracket including an installation part in which three or more fastening holes are formed radially on an outer surface while receiving grooves having a predetermined size are formed therein; Located in the upper portion of the lower bracket, the bottom surface is opened to form a contact surface of a predetermined size inside, and a cylindrical housing in which a plurality of guide holes are formed along the outer surface, and one end is fixed to the upper surface of the housing and the other end is vertically An upper bracket including a fastening bolt formed to protrude upward a predetermined length; A steel ball having a predetermined diameter inserted into the installation portion and installed to contact the contact surface; And one or more elastic support members having one end screwed to the fastening hole and the other end passing through the guide hole to have a horizontal length to elastically support the upper bracket.

Description

Distribution board with Earthquake-Proof Device used Steel Ball (High-voltage Switchgear, Low-voltage Switchgear, Motor Control Center, Cabinet Panel) with seismic device using steel ball (high voltage panel, low voltage panel, motor control panel, distribution panel) )}

The present invention relates to a water switchboard (high voltage board, low voltage board, motor control panel, distribution panel) equipped with a seismic device using a steel ball, more specifically, a water switchboard, a high voltage board, a low voltage board, a motor control panel, a distribution panel, etc. A switchgear (high pressure panel, low pressure) equipped with a seismic device using a steel ball that is provided in plural in the lower part to absorb the vibration or shock generated by an earthquake, etc., thereby increasing the structural safety against the earthquake resistance of the water switchboard. Class, motor control panel, distribution panel).

In general, the switchboard is a device used for monitoring, controlling and protecting the power system. It refers to a unit device, a supporting structure, and a collection of wires for connecting them. It will be provided with a plurality of panels for controlling the equipment.

When vibration or shock is applied to the switchgear due to external factors such as perceptual fluctuation or explosion, electrical components such as power equipment, wiring, and protective relays installed inside the control panel may be damaged, and accordingly power supply may be damaged due to power failure. There is a risk of interruption or fire.

Therefore, in recent years, it is considered important to secure the safety of buildings and structures due to the damage caused by frequent earthquakes, and thus the seismic design standards for the switchgear provided in the building are gradually being strengthened. Accordingly, the switchgear equipped with a seismic function Is being developed.

A conventional switchboard having the seismic function of Patent No. 0939475 (hereinafter referred to as 'patent document 1') is disclosed as a prior art for the above purpose.

The switchgear having the seismic function of Patent Document 1 is provided with a plurality of seismic means between the bottom angle and the support angle, the seismic means having a bearing insertion hole into which the self-aligning bearing is fitted and fixed to the upper surface of the horizontal plate of the bottom angle. A bearing support case installed; The bearing stop ring is installed in the lower end fitted to the self-aligning bearing, and the lower end is fitted into the bearing insertion hole of the bearing support case together with the self-aligning bearing, and the upper end is fitted through the bolt through hole drilled in the support angle through the nut. A support bolt fixed to the horizontal plate of the support angle; When the inner ball is coupled to the lower end of the support bolt and inserted into the bearing insertion hole of the bearing support case, when a shock is applied in the horizontal direction from the outside, the support bolt is set as the central axis of the lower end coupled to its own ball. Self-aligning bearings inclined in the opposite direction to which the impact force is applied and allowing the compression spring to absorb the impact force; The self-aligning bearing and the support bolt are supported in the bearing support case with a hole through which the support bolt passes in the center and fixed to the horizontal plate of the bottom angle together with the bearing support case through several bolts on the upper surface of the bearing support case. A cover that does not deviate from; A support bolt and a bearing support case between an upper surface of the horizontal plate of the bottom angle and a bottom surface of the horizontal plate of the support angle; And a compression spring installed to wrap the outside of the cover to absorb vibration and shock applied from the outside.

However, in the switchgear having the seismic function of Patent Document 1, when an impact is applied in the horizontal direction, the support bolts move at a predetermined angle within the bearing support case, where the bottom angle and the support angle collide with each other, causing wear and tear, In addition, there is a problem in that noise occurs when the bottom angle and the support angle collide.

In order to solve the above problems, the applicant has filed a water switchboard (hereinafter referred to as 'patent document 2') equipped with an earthquake-proof device of Japanese Patent Publication No. 2018-0036926.

The seismic device disclosed in Patent Document 2 includes an upper horizontal plate having a predetermined size, and an upper bracket including a pair of upper vertical plates installed to have a predetermined length vertically at a predetermined distance on the bottom surface of the upper horizontal plate; Located on the lower portion of the upper bracket, the lower horizontal plate having a predetermined size to correspond to the upper horizontal plate and the pair of upper vertical plates while being installed to have a predetermined length vertically at a predetermined interval on the upper surface of the lower horizontal plate And a lower bracket including a pair of lower vertical plates arranged to form 90 °. A connection block of a predetermined size located between the pair of upper and lower vertical plates; A plurality of connection bolts having one end assembled to the connection block while being movably installed up and down through the pair of upper and lower vertical plates, respectively; A first elastic spring installed between the bottom surface of the upper horizontal plate and the upper surface of the connection block; And a second elastic spring installed between the upper surface of the lower horizontal plate and the bottom surface of the connection block.

The earthquake-proof device of Patent Document 2 has a simple structure and is easy to manufacture, and has an advantage of easy installation, but if the elastic restoring force of the elastic spring is not kept constant, there is a problem that it is difficult to accurately return to the original installation position.

Therefore, as the elastic spring absorbs and reduces vibration in the horizontal direction and transmits it to the upper structure such as a water switchboard, it is possible to effectively prevent the structure from being damaged by vibrations such as earthquakes, but the elastic restoring force of the elastic spring is not maintained constant. Even if it is not, development of a water switchboard (high voltage board, low voltage board, motor control panel, distribution panel) equipped with an improved seismic device so that it can be accurately returned to the original installation position is required.

KR 10-0939475 B1 (2010. 01. 22.) KR 10-10-2018-0036926 A (2018. 04. 10.) KR 10-1349791 B1 (2014. 01. 03.) KR 10-1648136 B1 (2016. 08. 08.) KR 10-2015-0121405 A (October 29, 2015)

Therefore, the present invention has been devised to solve the problems of the switchgear equipped with the conventional seismic device as described above, and the problem to be solved by the present invention is to effectively prevent the structure from being damaged by vibrations such as earthquakes. It is to provide a water switchboard (high voltage plate, low voltage plate, motor control panel, distribution panel) equipped with an improved seismic device so that it can be accurately returned to the original installation position even if the elastic restoring force of the elastic spring is not kept constant.

The seismic device of a switchgear equipped with a seismic device using a steel ball according to the present invention for solving the above problems, a base plate having a predetermined size in which a long hole is formed to be fixed by an anchor bolt and a nut installed on the floor, and A lower bracket including an installation portion protruding to have a predetermined height on the upper surface of the base plate and having three or more fastening holes radially formed on the outer surface while receiving grooves having a predetermined size are formed therein; Located in the upper portion of the lower bracket, the bottom surface is opened to form a contact surface of a predetermined size inside, and a cylindrical housing in which a plurality of guide holes are formed along the outer surface, and one end is fixed to the upper surface of the housing, and the other end is vertically An upper bracket including a fastening bolt formed to protrude upward a predetermined length; A steel ball having a predetermined diameter inserted into the installation portion and installed to contact the contact surface; And one or more elastic support members having one end screwed to the fastening hole, and the other end passing through the guide hole and having a horizontal length to elastically support the upper bracket. It is formed of a long hole having a length in the horizontal direction along the outer surface of the housing, the elastic support member, the connection bolt having a predetermined length; First and second guide plates inserted through the connection bolts; And a compression spring installed between the first and second guide plates, so that the first guide plate is positioned to contact the outer surface of the housing, and the second guide plate is in contact with the head portion of the connecting bolt. Located, the outer surface of the housing is elastically supported by the compression spring, and the center of the contact surface of the housing is formed concave, so that the relative position of the lower bracket and the upper bracket is caused by vibration acting in the horizontal direction. After being moved at a predetermined interval in the horizontal direction, in addition to the returning action of the elastic support member, it is characterized in that the mutual position is returned to the original position by the weight of the switchgear.

In addition, another aspect of the present invention is that an elastic spring that elastically supports the bottom surface of the steel ball is inserted into the receiving groove to be configured to absorb shock due to vibration in a vertical direction transmitted to the steel ball.

In addition, another aspect of the present invention is that a vibration-proof mat having a predetermined thickness that absorbs vibration acting in a vertical direction is further installed between the upper bracket and the bottom plate of the switchgear.

In addition to this, the present invention is provided with a cover member preventing damage to the anti-vibration mat between the anti-vibration mat and the bottom plate, the cover member comprising: a metal plate having a predetermined thickness; And a rubber plate having a predetermined thickness attached to the upper surface of the metal plate.

According to the present invention, by using the elastic support member and the steel ball, the lower bracket and the upper bracket are moved in the horizontal direction by vibrations such as earthquakes, and then returned to the original installed position accurately by the elastic restoring force and the weight of the structure such as the switchgear. By doing so, even if it is used for a long period of time, a structure in which a structure such as a water switchboard is installed can be stably maintained in the originally installed state.

In addition, the present invention has a simple structure that can reduce the cost of manufacturing, in addition to the advantage of easy installation and maintenance.

1 is a block diagram showing an example of a switchgear equipped with a seismic device using a steel ball according to the present invention.
Figure 2 is a perspective view showing an example of a seismic device using a steel ball according to the present invention.
Figure 3 is an exploded perspective view of Figure 2;
4 is a front view of FIG. 2;
5 is a plan view of FIG. 2;
6 is a cross-sectional view taken along line AA in FIG. 5;
7 is a perspective view showing an example of a lower bracket according to the present invention.
8 is a cross-sectional view showing an example of the lower bracket according to the present invention.
9 is a perspective view showing an example of the upper bracket according to the present invention.
10 is a cross-sectional view showing an example of the upper bracket according to the present invention.
11 is a view showing an example of a fixing member according to the present invention.
12 is a view showing an example in which the seismic device using a steel ball according to the present invention is installed on the bottom surface of the switchgear.
13 to 15 are views showing an example in which the seismic device using a steel ball according to the present invention is moved in response to an earthquake vibration acting in a horizontal direction.

Hereinafter will be described in detail according to the accompanying drawings showing a preferred embodiment of the present invention.

The present invention can effectively prevent the structure from being damaged by vibrations such as earthquakes, and a switchgear equipped with an improved seismic device so that the structure can be accurately returned to the original installation position even if the elastic restoring force of the elastic spring is not kept constant. It is intended to provide a high-pressure panel, a low-voltage panel, a motor control panel, and a distribution panel. In the present invention, as shown in FIG. 1, a plurality of seismic devices 3 are installed on the bottom surface of the switchgear 1, and at this time, the seismic devices ( 3) comprises a lower bracket 10, an upper bracket 20, a steel ball 30 and an elastic support member 40 as shown in Figures 2 to 6.

Here, the seismic device 3 according to the present invention, instead of being installed on the bottom surface of the water distribution panel 1, can be installed on the bottom surface of the high voltage panel, the low voltage panel, the motor control panel, and the distribution panel, but for convenience of explanation, It will be described as an example only by being installed in 1).

The lower bracket 10 is configured to be securely fixed to an anchor bolt or the like pre-installed on a floor such as a foundation on which the water switchboard 1 is installed.

The lower bracket 10 has a plate-shaped base plate 11 having a predetermined size as shown in FIGS. 3 and 7 and an installation portion protrudingly formed to have a predetermined height on the upper surface of the base plate 11 (12).

In addition, the base plate 11 is formed with a plurality of long holes 11A for assembly with anchor bolts (not shown) installed on the base, and the upper portion is opened in the installation portion 12 to accommodate the receiving groove 12A having a predetermined depth. This is formed, and the steel ball 30 to be described later is inserted into the receiving groove 12A. At this time, a predetermined amount of lubricant may be filled in the receiving groove 12A so that the steel ball 30 can be easily rotated.

In addition, an elastic spring S elastically supporting the bottom surface of the steel ball 30 is inserted into the receiving groove 12A as shown in FIG. 8, whereby vertical vibration transmitted to the steel ball 30 is provided. Shock is absorbed by, and as a result, the steel ball 30 is prevented from being damaged by vertical vibration.

In addition, three or more fastening holes 12B are formed radially on the outer surface of the installation portion 12, and threads are formed along the inner surface of the fastening holes 12B, thereby providing an elastic support member 40 to be described later. ) The connecting bolt 41 is screwed to be fixed.

The upper bracket 20 is configured to be strongly fixed to the bottom plate 1A of the water switchboard 1 while being positioned on the upper portion of the lower bracket 10.

9 and 10, the upper bracket 20 has a cylindrical housing 21 having a predetermined diameter with a bottom surface open, and one end fixed to the upper surface of the housing 21 and the other end vertically. It includes a fastening bolt 22 formed to protrude upward a predetermined length.

At this time, a contact surface 21A in point contact with the steel ball 30 is formed on the inner surface of the housing 21, and a plurality of guide holes 21B are formed at predetermined intervals along the outer surface of the housing 21.

Here, the guide hole 21B is structurally separated from the lower bracket 10 and the upper bracket 20 by allowing the connecting bolt 41 assembled to the fastening hole 12B, which will be described later, to pass through the guide hole 21B. It is a structure that is connected so as not to be connected, and at the same time, to be freely slidable in the front, rear, left, right, and diagonal directions.

And the contact surface 21A, as shown in Figure 10, the central portion is formed concave, whereby the relative position of the lower bracket 10 and the upper bracket 20 by the vibration acting in the horizontal direction is predetermined in the horizontal direction After the gap is moved, in addition to the return action of the elastic support member 40 to be described later, the force acts so that the steel ball 30 is naturally moved to the concave middle portion of the contact surface 21A by the weight of the water switchboard 1, As a result, the center of the lower bracket 10 with the steel ball 30 installed and the center of the upper bracket 20 are easily and accurately returned to the original position installed.

To this end, the guide hole 21B is formed of a long hole having a horizontal width in the range of 60 to 80 ° along the outer surface of the housing 21, whereby vibration in the horizontal direction generated by the earthquake occurs in any direction. Even if it works, an appropriate relative movement is possible in response.

In addition, the fastening bolt 22 is to penetrate the bottom plate (1A) of the switchgear (1) a predetermined length upward, and then the nut (N) is assembled so that the seismic device (3) is fixed to the bottom surface of the switchgear (1) At this time, the seismic device 3 is assembled so as to be located on the bottom surface of the water switchboard 1, and the installation direction of the seismic device 3 is strongly spaced by a predetermined interval so that the installation direction is not rotated at random. It is configured to be fixed.

The steel ball 30 is inserted into the installation portion 12 of the lower bracket 10 and is in point contact with the contact surface 21A of the upper bracket 20 so that the lower bracket 10 is horizontally moved by vibrations such as earthquakes. It is a configuration that can be easily moved.

The steel ball 30 is made of a sphere made of a metal material having a predetermined diameter, wherein the diameter of the steel ball 30 is in consideration of the load of the switchgear 1 and the number of installed seismic devices 3 It is selected appropriately.

The elastic support member 40 connects the lower bracket 10 and the upper bracket 20 so as not to be structurally separated, and at the same time, the horizontally moved lower bracket 10 or upper bracket 20 is initially installed by elastic restoring force. It is a configuration to return to the position.

11, the elastic support member 40 is horizontally lengthened as one end is screwed to the fastening hole 12B of the installation part 12 while the other end penetrates the guide hole 21B of the housing 21. Between the connection bolt 41 of a predetermined length is installed to have, and the first and second guide plates (42A, 42B) and the first and second guide plates (42A, 42B) inserted through the connection bolt (41) It includes a compression spring (43) installed on.

At this time, the first guide plate 42A is positioned to be in contact with the outer surface of the housing 21, and the second guide plate 42B is positioned to be in contact with the head portion of the connecting bolt 41 so that the outer surface of the housing 21 It is configured to be elastically supported by the compression spring (43).

In addition, between the first and second guide plates 42A and 42B, a spring cover 44 of a predetermined size surrounding the compression spring 43 is installed, and at this time, the spring cover 44 is a corrugated pipe formed with wrinkles to allow expansion and contraction. Can be configured.

When the elastic support member 30 is at least three spaced apart from the outer surface of the housing 21 by a configuration as described above, the compression spring (in accordance with the direction, even if the vibration acting in the horizontal direction acts in any direction) 43) while being properly compressed, the lower bracket 10 can be slid, thereby reducing vibration transmitted to the upper bracket 20.

In addition, when the vibration acting in the horizontal direction is resolved, the lower bracket 10 and the upper bracket 20 are returned to the originally installed position by the elastic restoring force of the compression spring 43.

On the other hand, between the upper bracket 20 and the bottom plate (1A) of the water switchboard (1) is provided with a vibration-proof mat (50) to reduce the vibration acting in the vertical direction, the vibration-proof mat (50) is elastic The branches are made of rubber.

And the dust-proof mat 50 is formed in a square shape as shown in FIG. 3, and a plurality of through holes 51 are formed at predetermined intervals.

The anti-vibration mat 50 is installed so that the through-hole 51 penetrates through the fastening bolt 22 of the upper housing 20, whereby the anti-vibration mat 50 is upper even if the anti-vibration mat 50 is not fixed separately. It does not flow or displace from the housing 20.

In addition to this, a cover member 60 to prevent damage to the anti-vibration mat 50 may be further installed between the anti-vibration mat 50 and the bottom plate 1A of the switchgear 1 as shown in FIGS. 3 and 4. However, the cover member 60 includes a metal plate 61 having a predetermined thickness, and a rubber plate 62 having a predetermined thickness attached to the upper surface of the metal plate 61.

At this time, the metal plate 61 serves to make surface contact with the bottom plate 1A of the water switchboard 1 while preventing the dustproof mat 50 from being damaged by external force, and the rubber plate 62 causes flow due to earthquake or the like. At this time, it serves to prevent noise that may occur between the metal plate 61 and the bottom plate 1A of the switchgear 1.

The switchgear equipped with the seismic device using the steel ball of the present invention configured as described above, the lower bracket 10 is fixedly installed on an anchor bolt (without reference numeral) installed in advance on the basis of the floor, as shown in FIG. In this state, in this state, the fastening bolt 22 of the seismic device 3 is towed and seated the switchboard 1 so as to penetrate the bottom plate 1A of the switchboard 1 upwardly, and then seat the nut on the inner side of the switchboard 1 ( Installation is completed by assembling N).

On the other hand, if vibrations such as earthquakes occur and the floor foundation is moved in the horizontal direction, as shown in FIGS. 13 to 15, the lower bracket 10 fixed to the foundation is moved horizontally by vibrations such as earthquakes. In comparison, the intensity of vibration transmitted to the switchgear 1 is reduced and transmitted as the distance to which the upper bracket 20 moves is reduced.

And when the vibration is relieved, the elastic restoring force of the elastic support member 40 and the self-weight of the switchgear 1 naturally return to the original position so that the center of the lower bracket 10 and the center of the upper bracket 20 coincide.

As described above, the present invention uses the elastic support member and the steel ball, the lower bracket and the upper bracket are moved in a horizontal direction due to vibrations such as earthquakes, and then accurately restored to the original installed position by the elastic restoring force and the weight of the structure such as the switchgear. It can be returned, whereby even when used for a long period of time, the state in which the structure such as the water switchboard is installed is stably maintained in the originally installed state.

In the above, for convenience of description, the drawings showing the preferred embodiments and the components shown in the drawings have been described with reference numerals and names, but this is an embodiment according to the present invention. It should be understood that the scope of the right should not be construed as being limited, and the simple substitution from the description of the invention to a configuration that has the same function as the change to various predictable shapes is within the range that can be easily changed by those skilled in the art. I would say.

1: Switchgear 1A: Bottom plate
2: Ground 3: Seismic device
10: lower bracket 11: base plate
11A: Long hole 12: Mounting part
12A: Housing 12B: Fastener
20: upper bracket 21: housing
21A: contact surface 21B: guide hole
22: fastening bolt 30: steel ball
40: elastic support member 41: connecting bolt
42A: First guide plate 42B: Second guide plate
43: compression spring 44: spring cover
50: anti-vibration mat 51: through hole
60: cover member 61: metal plate
62: rubber plate N: nut
S: Elastic spring

Claims (4)

In the water switchboard (1) is provided with a seismic device (3) on the bottom surface to absorb the earthquake vibration,
The seismic device (3),
A base plate 11 having a predetermined size in which a long hole 11A is formed to be fixed by an anchor bolt and a nut installed on the bottom 2, and protrudes so as to have a predetermined height on the upper surface of the base plate 11 inside A lower bracket 10 including an installation portion 12 in which three or more fastening holes 12B are formed radially on an outer surface while receiving grooves 12A having a predetermined size are formed;
Located in the upper portion of the lower bracket 10, the bottom surface is opened to form a contact surface 21A of a predetermined size therein, and a cylindrical housing 21 in which a plurality of guide holes 21B are formed along the outer surface. , The upper bracket 20 including a fastening bolt 22 is formed so that the other end vertically protrudes a predetermined length while one end is fixed to the upper surface of the housing 21;
A steel ball 30 having a predetermined diameter inserted into the installation portion 12 and installed to contact the contact surface 21A; And
Three or more elastic support members 40 having one end screwed to the fastening hole 12B and the other end passing through the guide hole 21B to have a horizontal length to elastically support the upper bracket 20 );
It includes,
The contact surface 21A,
The central part is formed concave,
The guide ball (21B),
It is formed in a long hole having an angle range of 60 to 80 ° in the horizontal direction along the outer surface of the housing 21, so that the lower bracket 10 and the upper bracket 20 are not structurally separated, and At the same time, the positions of the upper bracket 20 and the lower bracket 10 are configured to slide freely in the front, rear, left, and diagonal directions,
The elastic support member 40,
A connecting bolt 41 having a predetermined length;
First and second guide plates 42A and 42B inserted through the connection bolt 41; And
A compression spring (43) installed between the first and second guide plates (42A, 42B);
Including, the first guide plate 42A is positioned to contact the outer surface of the housing 21, and the second guide plate 42B is positioned to contact the head portion of the connecting bolt 41 , The outer surface of the housing 21 is configured to be elastically supported by the compression spring 43,
The contact surface 21A of the housing 21,
The center portion is formed concave, after the relative position of the lower bracket 10 and the upper bracket 20 is moved by a predetermined distance in the horizontal direction by vibration acting in the horizontal direction, the elastic support member 40 In addition to the returning action, the mutual position is returned to the original position by the weight of the switchgear 1,
In the receiving groove (12A),
An elastic spring (S) for elastically supporting the bottom surface of the steel ball (30) is inserted into the steel ball, characterized in that it is configured to absorb the impact of vibration in the vertical direction transmitted to the steel ball (30). Switchgear equipped with used seismic device.
delete The method according to claim 1,
Between the upper bracket 20 and the bottom plate (1A) of the switchgear (1),
A switchgear equipped with a seismic device using a steel ball, characterized in that a vibration-proof mat 50 of a predetermined thickness that absorbs vibrations acting in a vertical direction is further installed.
The method according to claim 3,
Between the anti-vibration mat 50 and the bottom plate 1A,
The cover member 60 to prevent damage to the anti-vibration mat 50 is installed,
The cover member 60,
A metal plate 61 having a predetermined thickness; And
A rubber plate 62 having a predetermined thickness attached to the upper surface of the metal plate 61;
It characterized in that it comprises a switchgear equipped with a seismic device using a steel ball.

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