KR102165527B1 - Distribution Board with Earthquake-Proof Device using Leaf Spring and Steel Ball(High-voltage Switchgear, Low-voltage Switchgear, Motor Control Center, Cabinet Panel) - Google Patents

Abstract

The present invention is a switchgear (high-pressure panel, low-pressure panel, motor control panel) equipped with a plate spring and a steel ball that can effectively absorb earthquakes and life vibrations acting in vertical and horizontal directions while being easy to manufacture due to a simple structure. , Distribution board).
The switchboard provided with a seismic device using a plate spring and a steel ball according to the present invention for solving the above problems is provided with a partition plate for dividing the receiving space up and down while the seismic device has a predetermined size receiving space therein. A lower body including a body portion and a plurality of fixing portions provided on a lower outer surface of the body portion; An upper body installed on the upper body of the lower body and provided with a guide portion inserted in the upper side of the receiving space with respect to the partition plate; An elastic spring having a predetermined diameter positioned between the upper surface of the partition plate and the lower surface of the upper body; A plate spring assembly installed on the upper side of the receiving space with respect to the partition plate and installed to radially elastically support the outer surface of the guide portion; A ring-shaped ball support unit installed between the elastic spring and the upper body; And a fastening member comprising a fixing plate installed at a lower side of the receiving space with respect to the partition plate, a connection bolt installed to pass through the guide part and the fixing plate, and a connection nut assembled to the connection bolt. do.

Description

Distribution Board with Earthquake-Proof Device using Leaf Spring and Steel Ball (High-voltage Switchgear, Low-voltage Switchgear,) equipped with a seismic device using leaf springs and steel balls. Motor Control Center, Cabinet Panel)}

The present invention relates to a switchgear (high platen, low platen, motor control panel, distribution panel) equipped with a seismic device using a plate spring and a steel ball, and more specifically, a switchgear, high voltage panel, low voltage panel, motor control panel, distribution panel, etc. A switchboard equipped with a seismic device using a plate spring and a steel ball that can increase the structural safety of the switchboard by absorbing earthquakes and daily vibrations acting in vertical and horizontal directions by being provided with a plurality of units below the switchboard). (High-pressure panel, low-pressure panel, motor control panel, distribution panel).

In general, a switchboard is a device used for monitoring, control, and protection of the power system, and refers to a unit device, a supporting structure, and an assembly of wires to connect it, and facilities that divide into places where power is to be used are built-in or It will have a plurality of panels for controlling the facilities.

When vibration or shock is applied to the switchgear due to external factors such as a change of ground or explosion, electrical components such as power devices, wiring, and protection relays installed inside the control panel may be damaged, and power supply may be disrupted 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 damage due to frequent earthquakes, and therefore, the seismic design standards for switchgear installed in buildings are gradually strengthening, and accordingly, switchgear equipped with seismic function Is being developed.

As a prior art for the above purpose, a switchgear (hereinafter referred to as'patent document') having a seismic function of Patent Publication No. 0939475 is disclosed.

The switchgear having the seismic function of the patent document is provided with a plurality of seismic means between the floor angle and the support angle, but the seismic means has a bearing insertion hole into which the self-aligning bearing is inserted, and is fixedly installed on the upper surface of the horizontal plate of the floor angle. Bearing support case; A bearing stop ring is installed at the lower end of the self-aligning bearing, and the lower end is inserted into the bearing insertion hole of the bearing support case together with the self-aligning bearing, and the upper end is inserted through a bolt through hole drilled in the support angle, and through a nut. Support bolts fixed to the horizontal plate of the support angle; When the inner ball is inserted into the bearing insertion hole of the bearing support case while the inner ball is coupled to the lower end of the support bolt, and an impact is applied in the horizontal direction from the outside, the support bolt is set as the center axis with the lower end coupled to its own ball A self-aligning bearing that is inclined in the opposite direction to which the impact force is applied and allows the compression spring to absorb the impact force; The self-aligning bearing and the support bolt are installed in the bearing support case with a hole in the center through which the support bolt passes, and the bearing support case is fixedly installed on the horizontal plate of the floor angle through several bolts on the upper surface of the bearing support case. A cover to prevent separation from the; 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 in a form surrounding the outside of the cover to absorb vibration and shock applied from the outside.

However, in the switchgear having a seismic function of the above patent document, when an impact is applied in the horizontal direction, the support bolts move at a predetermined angle within the bearing support case, and at this time, abrasion and damage occur as the floor angle and the support angle collide with each other. There is a problem that noise occurs when the floor angle and the support angle collide.

Therefore, it is required to develop a switchgear (high platen, low platen, motor control panel, and distribution panel) equipped with a seismic device capable of effectively absorbing vibrations acting in horizontal and vertical directions while being easy to manufacture due to its simple structure.

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 (2015. 10. 29.)

The present invention was conceived to solve the problems of a switchboard equipped with a conventional seismic device as described above, and the problem to be solved by the present invention is that the structure is simple, making it easy to manufacture, and working in vertical and horizontal directions. It is to provide a switchgear (high platen, low platen, electric motor control panel, distribution panel) equipped with a seismic device using plate springs and steel balls that can effectively absorb earthquake vibrations.

The switchboard provided with a seismic device using a plate spring and a steel ball according to the present invention for solving the above problems has a seismic device, and a partition plate for dividing the receiving space up and down while a predetermined size receiving space is formed therein. A lower body including a body portion and a plurality of fixing portions provided on a lower outer surface of the body portion; An upper body installed on the upper body of the lower body and provided with a guide portion inserted in the upper side of the receiving space with respect to the partition plate; An elastic spring having a predetermined diameter for elastically supporting the upper body while being positioned between the upper surface of the partition plate and the lower surface of the upper body; A plate spring assembly installed on the upper side of the receiving space with respect to the partition plate and installed to radially elastically support the outer surface of the guide portion; A ring-shaped ball support unit installed between the elastic spring and the upper body and supporting the bottom surface of the upper body by a plurality of balls arranged radially; And a fastening member comprising a fixing plate installed at a lower side of the receiving space with respect to the partition plate, a connection bolt installed to pass through the guide part and the fixing plate, and a connection nut assembled to the connection bolt, the partition A through hole having a diameter relatively larger than the diameter of the connection bolt is formed in the plate to secure a free space in which the connection bolt can move in the horizontal direction, and the plate spring assembly has a predetermined diameter to be inserted into the inside of the elastic spring. Cylindrical spring housing; A plurality of leaf springs installed on the inside of the spring housing and having one end thereof in contact with the outer surface of the guide portion to support elasticity; And a spring fixture installed inside the spring housing and fixing one end of the plurality of leaf springs.

In the present invention, the spring fixture is formed in a cylindrical shape having a predetermined diameter inserted into the inner side of the spring housing, the plurality of leaf springs are formed in a plate shape in an arc shape having a predetermined diameter, one end of the Another feature is that it is in contact with the outer surface of the guide and the other end is fitted and fixed to the spring fixture.

In addition, the present invention is further characterized in that an auxiliary plate spring having a "C" shape is further installed in the space between the plurality of leaf springs and the spring fixture.

In addition, the present invention is further characterized in that a seating portion having a predetermined width is formed on the bottom surface of the spring housing, so that separation of the plurality of leaf springs and the spring fixture is prevented.

According to the present invention, the structure is simple to reduce the cost required for manufacturing, while absorbing vibrations such as life vibrations acting in the vertical direction and earthquakes acting in the horizontal direction through the elastic spring and leaf spring assembly, and transmitted to the switchgear. It can effectively reduce shock and vibration.

In addition, since the upper and lower bodies are assembled through using a fixing plate, a connection bolt and a connection nut, there is an advantage of easy assembly and disassembly.

1 is a view showing an example of a switchgear provided with a seismic device using a plate spring and a steel ball according to the present invention.
Figure 2 is a perspective view showing an example of a switchgear equipped with a seismic device using a plate spring and a steel ball according to the present invention.
Figure 3 is an exploded perspective view of Figure 2;
Figure 4 is a cross-sectional view of Figure 2;
5 is a perspective view showing an example of a lower body according to the present invention.
Figure 6 is a cross-sectional view of Figure 5;
7 is a cross-sectional view showing an example of the upper body according to the present invention.
Figure 8 is a perspective view showing an example of a leaf spring assembly according to the present invention.
9 is an exploded perspective view of FIG. 8.
Figure 10 is a plan view of Figure 8;
11 is a view showing an example of the auxiliary plate spring is further installed in the plate spring assembly according to the present invention.
12 is an exploded perspective view showing an example of a ball support unit according to the present invention.
13 is a view showing an example in which a switchgear equipped with a seismic device using a plate spring and a steel ball according to the present invention is operated in response to a vibration generated in a vertical direction.
14 is a view showing an example in which a switchgear equipped with a seismic device using a plate spring and a steel ball according to the present invention is operated in response to a vibration generated in a horizontal direction.

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

The present invention is a switchgear (high-pressure panel, low-pressure panel, motor control panel) equipped with a plate spring and a seismic device using a steel ball that can effectively absorb life and seismic vibrations acting in vertical and horizontal directions while being easy to manufacture due to a simple structure. , Distribution board), and the present invention is a lower body 10, an upper body 20, an elastic spring 30, a plate spring assembly 40, and a ball support as shown in FIGS. It includes a unit 50 and a fastening member 60.

The lower body 10 is a configuration in which the upper body 20, which will be described later, is elastically supported while being fixedly installed on the anchor bolts 2A installed on the ground 2.

As shown in FIGS. 5 and 6, the lower body 10 has a body part 11 having a predetermined length vertically while having a cylindrical shape, and at a predetermined distance on the lower outer surface of the body part 11 It includes a plurality of fixing parts 12 to be installed.

Here, a receiving space 11A having a predetermined size is formed along the inner surface of the body 11, and a partition plate 11B having a predetermined thickness is provided to partition the receiving space 11A up and down.

At this time, the partition plate 11B has a relatively larger diameter than the diameter of the connecting bolt 62 in order to secure a free space of a predetermined width so that the connecting bolt 62 of the fastening member 60 to be described later can move in the horizontal direction. A ball 11B' is formed.

In addition, a long hole 12A having a predetermined length is formed in the fixing portion 12 so that the anchor bolts 2A can be properly positioned and assembled.

On the other hand, one end of the elastic spring 30, which will be described later, is inserted into the space on the upper side of the receiving space 11A in which the space is divided up and down by the partition plate 11B to prevent the elastic spring 30 from moving in position. It fixes the lower part and at the same time functions to fix the position of the leaf spring assemblies 40 and 40'.

In addition, as the elastic spring 30 is compressed on the lower space of the receiving space 11A, the fixing plate 61 and the connection nut 63 of the fastening member 60, which will be described later, can be lowered by a predetermined width from the ground. It functions to form a spaced apart.

The upper body 20 is installed on the upper part of the lower body 10 and is assembled and fixed through the bottom plate 1A of the switchgear 1.

As shown in FIG. 7, the upper body 20 includes a base portion 21 having a predetermined diameter having a disk shape, and a guide portion 22 formed to protrude downward by a predetermined length toward the bottom surface of the center side of the base portion 21. ).

Here, the base portion 21 is provided with a fixing bolt (21A) having a predetermined length vertically so as to penetrate the bottom plate (1A), and these fixing bolts (21A) are located on the upper surface of the bottom plate (1A) and the upper body ( A fixing nut (21B) that fixes 20) to the switchgear (1) is assembled.

And the bottom surface of the base portion 21 is formed with a locking projection (21') that protrudes downward to a predetermined height along the circumference, the ball (B) of the ball support unit 50 described later by the locking projection (21') It is prevented from being excessively moved out of the bottom surface of the base portion 21 and displaced from the position.

In addition, a bolt insertion hole 22A having a predetermined diameter is formed in the guide portion 22 so that the connection bolt 62 of the fastening member 60 is inserted.

And the guide part 22 protrudes toward the bottom surface of the base part 21 and is formed in a cylindrical shape having a predetermined diameter, and the outer surface of the guide part 22 is inserted into the center of the leaf spring assembly 40 to be described later. It is elastically supported by a plurality of leaf springs (42).

The elastic spring 30 is configured to elastically support the upper body 20 in the vertical direction.

As shown in FIGS. 3 and 4, the elastic spring 30 is fixed by being closely inserted into a space formed on the upper side of the receiving space 11A of the lower body 10 by a partition plate 11B, The upper part is installed to be in close contact with the bottom surface of the base portion 21 of the upper body 20.

The leaf spring assembly 40 is installed in the space between the inner surface of the elastic spring 30 and the outer surface of the guide part 22 to elastically support the guide part 22 in the horizontal direction.

The leaf spring assembly 40 includes a cylindrical spring housing 41 having a predetermined diameter to be inserted into the elastic spring 30 as shown in FIGS. 8 to 10, and an inner side of the spring housing 41. A plurality of plate springs 42 formed as arc-shaped plates so that one end is in contact with the outer surface of the guide part 22 and elastically supported while being installed in the spring housing 41 and a plurality of plate springs while being installed inside the spring housing 41 It includes a cylindrical spring fixture 43 for fixing one end of (42).

At this time, a seating portion 41A having a predetermined width is formed on the bottom surface of the spring housing 41, and the upper portion of the elastic spring 30 is configured to prevent separation of the plurality of leaf springs 42 and the spring fixture 43. It also functions to prevent the shape of the elastic spring 30 from being excessively deformed while moving together according to the horizontal movement of the lower body 10 and the upper body 20.

In addition, one end of the leaf spring 42 is installed to contact the outer surface of the guide portion 22, and the other end of the leaf spring 42 has a fitting portion 42A partially cut to have a predetermined width and length. It is equipped.

In addition, the spring fixture 43 has a relatively small diameter to be inserted into the inner side of the spring housing 41, and a partially cut-out fitting portion 43A is provided at a predetermined interval so that one end of the plate spring 42 is fitted and fixed. A plurality is formed.

By the configuration of the leaf spring assembly 40 as described above, a space of a predetermined size is formed between the spring housing 41 and the spring fixture 43, as shown in FIG. 10, and on this space, the spring fixture 43 ), the one end of the leaf spring 42 inserted in the fitting portion 43A is positioned to contact the inner surface of the spring housing 41, thereby instantaneously pressing the leaf spring 42 excessively by strong seismic vibration. Even if it is, the impact transmitted to the spring housing 41 by the spring fixture 43 is reduced, and thus the leaf spring assembly 40 is prevented from being permanently deformed or damaged due to an impact caused by a strong earthquake.

Meanwhile, as shown in FIG. 11, an auxiliary plate spring 44 having a "C" shape is inserted into the space between the plurality of leaf springs 42 and the spring fixture 43 to increase the elastic force of the leaf spring 42. While reinforcing, the plate spring 42 may be configured to be more easily restored to a shape originally installed after being deformed under pressure.

At this time, the auxiliary plate spring 44 is integrally formed to be connected to one end of the plate spring 42 or is configured to be fitted to one end of the plate spring 42, whereby the installation position of the auxiliary plate spring 44 is not separated. The leaf spring 42 is also stably supported.

When the lower body 10 is moved in response to the earthquake vibration acting in the horizontal direction by the leaf spring assembly 40 configured as described above, between the inner side of the receiving space 11A and the outer side of the guide 22 As the plate spring 42 is pressurized and deformed, the moving distance of the upper body 20 that is moved in the horizontal direction is relatively reduced compared to the lower body 10, and thereafter, due to the elastic restoring force of the leaf spring 42, the lower body ( 10) and the upper body (20) are returned to the originally installed position concentrically, and as a result, the intensity of vibration acting in the horizontal direction on the ground is reduced and transmitted to the switchboard (1), and the internal structure of the switchboard (1) It is protected from vibrations such as this earthquake.

The ball support unit 50 is installed between the elastic spring 30 and the upper body 20 to prevent excessive deformation of the elastic spring 30.

As shown in FIG. 12, the ball support unit 50 has a diameter corresponding to the through hole 11B' formed in the partition plate 11B while being formed in a disk shape as shown in FIG. 12, or a hole having a relatively large diameter. And a lower plate 51 formed therein, an upper plate 52 having a diameter and hole corresponding to the lower plate 51, and a coupling member 53 for assembling the lower plate 51 and the upper plate 52 do.

Further, a plurality of insertion holes 51A are radially formed in the lower plate 51, and a metal ball B having a predetermined diameter is inserted into the insertion hole 51A. In addition, a hole of a predetermined diameter (no reference numeral) is formed in the upper plate 52 so that a predetermined portion is exposed to the top without the ball B being separated.

By the ball support unit 50 as described above, the elastic spring 30 is in contact with the bottom surface of the lower plate 51 to be elastically supported, and at the same time, the upper body 20 is supported by a plurality of balls (B) and a predetermined width As a result, the lower body 10 is moved horizontally by a predetermined distance due to earthquake vibration, and when the positions of the lower body 10 and the upper body 20 are shifted from each other, the elastic spring 30 It is prevented from being deformed while moving along the upper body 20.

The fastening member 60 constrains the lower body 10 and the upper body 20 so that they are not separated from each other, and allows the lower body 10 and the upper body 20 to flow in a predetermined width in the vertical and horizontal directions. It is a configuration that connects.

As shown in FIG. 3, the fastening member 60 includes a fixing plate 61 installed on the lower side of the receiving space 11A, a guide part 22, and a fixing plate 61 based on the partition plate 11B. It includes a connection bolt 62 having a predetermined length installed to penetrate and a connection nut 63 assembled to the connection bolt 62.

Here, instead of being formed in a disk shape, the fixing plate 61 is formed to be inclined at a predetermined angle so that the edge portion is relatively low in height compared to the center side, as shown in FIG. 4, thereby generating vibration in the horizontal direction. As shown in FIG. 1, when the positions of the lower body 10 and the upper body 20 are positioned so as to deviate a predetermined width from each other, the inclined surface portion of the fixing plate 61 and the partition plate 11B come into contact with each other, whereby elasticity Due to the elastic restoring force of the spring 30, the force to naturally position the fixing plate 61 toward the center of the through hole 11B' acts, and as a result, the elastic restoring force of the elastic spring 30 and the elastic restoring force of the plate spring assembly 40 As the elastic restoring force acts at the same time, the lower body 10 and the upper body 20 are easily returned to their originally installed positions concentrically.

As shown in FIG. 13, in the switchgear equipped with a seismic device using a plate spring and a steel ball according to the above configuration, the life vibration generated in the vertical direction is increased by compression of the elastic spring 30 as shown in FIG. As the main body 20 rises and descends, it is adequately absorbed, and vibrations generated in the horizontal direction due to earthquakes are absorbed by the plate spring assembly 40 and transmitted to the upper main body 20 as shown in FIG. 14. Relatively, the width of movement in the horizontal direction of the upper main body 20 is reduced, and as a result, it is effectively prevented from being damaged by excessive movement of the switchboard 1 in the horizontal direction due to vibrations such as earthquakes.

As described above, the present invention has a simple structure and can reduce the cost required for manufacturing, and vibrations such as life vibrations acting in the vertical direction and earthquakes acting in the horizontal direction through the elastic spring and the leaf spring assembly and the ball support unit As it absorbs, shock and vibration transmitted to the switchgear are effectively reduced.

In the above, for the convenience of explanation, the drawings showing the preferred embodiments and the configurations shown in the drawings have been described with reference numerals and names, but this is an embodiment according to the present invention and is As it is limited, the scope of the rights should not be interpreted, and it is extremely obvious that the simple substitution with a configuration that has the same action as a change to various predictable shapes from the description of the invention is within the range that can be changed for easy implementation by those skilled in the art. I would see it.

1: switchboard 1A: bottom plate
2: Ground 2A: Anchor bolt
3: seismic device 10: lower body
11: Body 11A: accommodation space
11B: partition plate 11B': through hole
12: fixed part 12A: long hole
20: upper body 21: base portion
21': locking jaw 21A: fixing bolt
21B: fixing nut 22: guide part
22A: bolt insertion hole 30: elastic spring
40: leaf spring assembly 41: spring housing
41A: seat 42: leaf spring
42A: fitting part 43: spring fixture
43A: fitting part 44: auxiliary plate spring
50: ball support unit 51: lower plate
51A: insertion hole 52: top plate
53: coupling member 60: coupling member
61: fixing plate 62: connecting bolt
62: connecting nut B: ball

Claims (4)

In the switchgear (1) provided with a seismic device (3) on the bottom to absorb earthquake vibration,
The seismic device 3,
A body part 11 provided with a partition plate 11B for partitioning the accommodation space 11A up and down while a predetermined size accommodation space 11A is formed therein, and provided on the lower outer surface of the body part 11 A lower body 10 including a plurality of fixing portions 12 that are;
An upper body 20 provided on the upper body of the lower body 10 and provided with a guide part 22 inserted at a predetermined depth into the upper side of the receiving space 11A based on the partition plate 11B;
An elastic spring 30 having a predetermined diameter for elastically supporting the upper body 20 while being positioned between the upper surface of the partition plate 11B and the lower surface of the upper body 20;
A plate spring assembly 40 installed on the upper side of the receiving space 11A with respect to the partition plate 11B and installed to radially elastically support the outer surface of the guide part 22;
A ring-shaped ball support unit (50) installed between the elastic spring (30) and the upper body (20) and supporting the bottom surface of the upper body (20) by a plurality of balls (B) arranged radially; And
A fixing plate 61 installed at the lower side of the receiving space 11A based on the partition plate 11B, a connection bolt 62 installed to penetrate the guide part 22 and the fixing plate 61, and the Fastening member 60 made of a connection nut 63 assembled to the connection bolt 62;
Including,
A through hole 11B' having a diameter relatively larger than the diameter of the connection bolt 62 is formed in the partition plate 11B to secure a free space in which the connection bolt 62 can move in the horizontal direction,
The leaf spring assembly 40,
A cylindrical spring housing 41 having a predetermined diameter to be inserted into the elastic spring 30;
A plurality of leaf springs 42 installed on the inside of the spring housing 41 and having one end in contact with the outer surface of the guide part 22 to support elasticity; And
A spring fixture 43 installed inside the spring housing 41 and fixing one end of the plurality of leaf springs 42;
Including,
The spring fixture 43,
It is formed in a cylindrical shape having a predetermined diameter inserted into the inside of the spring housing 41,
The plurality of leaf springs 42,
Plate spring and steel ball, characterized in that it is formed in a plate shape in an arc shape having a predetermined diameter, one end is in contact with the outer surface of the guide part 22, and the other end is fitted and fixed to the spring fixture 43 Switchgear equipped with a seismic device using.
delete The method according to claim 1,
A seismic device using a plate spring and a steel ball, characterized in that an auxiliary plate spring 44 having a "C" shape, respectively, is further installed in the space between the plurality of leaf springs 42 and the spring fixture 43 Switchgear is equipped with.
The method according to claim 1,
A leaf spring, characterized in that a seating portion 41A having a predetermined width is formed on the bottom surface of the spring housing 41 to prevent separation of the plurality of leaf springs 42 and the spring fixture 43 Switchgear equipped with a seismic device using steel balls and steel balls.

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