KR102007908B1 - Seismic device for incoming/distribution board of elliptical plate spring type - Google Patents

Abstract

The present invention relates to a seismic device for an incoming and distribution panel which is installed between a lower part of an incoming and distribution panel and a concrete bottom and, more specifically, to a seismic device for an incoming and distribution panel which inserts first and second plate springs of a circular shape into the inside and the outside of an upper part of a lower die, is vertically pressed for having an oval shape in a state of vertically inserting a buffer member into the inside, and is manufactured by a simple structure of being installed and assembled to allow a vertical direction thereof to be in contact with each other, and a horizontal direction thereof to be separated from each other so as to be in excellent in manufacturing productivity, economic feasibilities, and durability, minimize damage to the incoming and distribution panel, and more safely manage the incoming and distribution panel since the oval plate spring, which is overlapped with the buffer member to be installed in the inside and the outside, effectively absorbs and extinguishes vertical and horizontal vibration or impact due to an earthquake, and vibration or impact applied in a shaking or twisting direction.

Description

Seismic device for incoming / distribution board of elliptical plate spring type}

The present invention relates to a seismic device for switchgear used between the switchgear and the concrete structure, more specifically, vibration or shock caused by an earthquake or the like by a simple structure using an elliptical leaf spring is installed overlapping in and out with the buffer member. The present invention relates to an elliptical leaf spring type switchgear seismic device that effectively absorbs and dissipates and minimizes damage to the switchboard.

In general, a switchgear is an electrical facility that safely supplies industrial power to a user, and is used to monitor, control, and protect an electric system when water is distributed from a power plant or substation to a customer.

The switchgear is equipped with a variety of electrical devices such as transformers, switches, lightning arresters, power fuses, converters, breakers, detectors, computer wattmeters inside the enclosure.

Since the conventional switchgear is fixedly installed on the lower mountain frame installed above the concrete structure, when an earthquake or the like occurs, the vibration or shock caused by the earthquake is transmitted to the switchgear as it is, and the electric equipment inside is damaged and short-circuited to supply power. This caused problems such as interruption or fire.

In order to solve the problems of the conventional switchgear, it is necessary to install an earthquake-resistant device. The seismic device is installed between the switchgear and a lower mountain frame installed on the concrete structure.

Conventionally, the seismic device installed in this way is provided in a variety of structures, by installing a cushion member, a buffer spring, etc. between the upper and lower dies to absorb vibrations or shocks caused by earthquakes. The conventional earthquake resistance device has a limitation in that the cushion member, the buffer spring, etc. installed between the upper and lower dies absorb and absorb the vibration and shock in the up and down direction well, while the shock absorbing performance against the vibration and shock in the horizontal direction is inferior.

In order to improve this, in Patent No. 10-1741983, a cushion member and a cushioning spring are installed between the upper and lower dies, and wire ropes are connected to the front, rear, left and right sides of the upper and lower dies, respectively, so that the vertical direction is horizontal as well. Improved cushioning performance against vibration and shock in the direction.

However, the seismic device has a problem that the assembly work and manufacturing productivity decreases because of the connection of eight wire ropes to the front, rear, left and right sides of the upper and lower dies, thereby increasing the manufacturing cost.

In addition, because the upper and lower dies are connected by wire ropes, that is, wire-type ropes, they are not vulnerable to repeated vibrations or shocks. In particular, complex vibrations or shocks that are shaken or twisted in addition to the vibrations or shocks in the vertical or horizontal directions. When this occurred, each wire rope independently buffered, which made it more vulnerable to durability, and also had a limitation in maximizing the shock absorbing performance against vibration or shock.

Patent Registration No. 10-1724102 (March 31, 2017) Registered Patent No. 10-1741983 (May 25, 2017)

The present invention has been invented to solve all the problems of the prior art as described above, and effectively absorbs and vanishes vibrations and shocks generated by earthquakes, etc., by a simple structure using an elliptical leaf spring installed inside and outside with a buffer member. The purpose is to provide to minimize the damage of the switchboard.

The present invention is installed between the switchgear and the concrete structure, the plate spring type switchgear seismic device that absorbs vibrations or shocks generated by the earthquake, the lower die and the circular die different in diameter on the upper portion of the lower die and forming an incision in the lower center The first and second plate springs of the first and second plate springs of an elliptical structure which are positioned to overlap the inner and outer sides of the first and second plate bodies, and are vertically contacted with each other and horizontal directions are spaced apart from each other. And a cushioning member installed vertically in at least one or more positions, and an assembly member coupling the lower die, the first and second leaf springs, and the buffer member to each other.

According to the present invention, the first and second leaf springs are characterized in that the installation configuration to cross perpendicular to each other.

According to the present invention, the shock absorbing member is characterized in that it consists of a cushion tube to form a corrugation in the vertical direction, and a cushion ball embedded in the cushion tube a plurality.

In the present invention, the circular first and second leaf springs are inserted into the inner and outer sides of the lower die, and the vertical direction is contacted and the horizontal direction is spaced apart from each other by pressing up and down to have an elliptical shape while the buffer member is inserted vertically therein. It is manufactured by a simple structure that is assembled and installed, and has excellent manufacturing productivity and economic efficiency, excellent durability, and vibration or shock acting in the shaking or twisting direction as well as vibration and shock in the vertical and horizontal directions caused by earthquakes together with the cushioning member. Since the elliptical leaf springs installed inward and outward are effectively absorbed and extinguished, the use efficiency is excellent.

In other words, it is possible to manage more safely while minimizing damage to switchboards caused by earthquakes.

1 is a perspective view showing an embodiment of the present invention.
2 is an exploded perspective view of FIG.
3 is a cross sectional view of FIG. 1.
4 is a side cross-sectional view of FIG. 1.
5 is a cross-sectional view showing another embodiment of FIG.
6 is a perspective view showing another embodiment of the present invention.
7 is a cross-sectional view showing another embodiment of the present invention.
8 is a perspective view showing the buffer member of FIG.
9 is an installation and use state diagram of the apparatus of the present invention.

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

The leaf spring type switchgear seismic device 100 of the present invention includes a lower die 10, first and second leaf springs 20 and 20 ', a shock absorbing member 30, as shown in FIGS. By assembling the assembly member 40 and installing it between the switchgear 2 and the concrete structure 5, it is made to absorb the vibration and shock generated by the earthquake.

The lower die 10 is formed in the shape of a plate-shaped block, and forms a fastening hole 11 for fastening the fastening member 50 to the concrete structure 5 on both sides, an assembly member 40 to be described later in the central portion. At least one fastening hole 12 for assembling the structure is formed.

The first and second leaf springs 20 and 20 'have a circular first and second leaf bodies 21 and 21 that have different diameters and form cutouts 22 and 22' with lower centers thereof. ') To overlap the inside and the outside, and press in the up and down direction to have an elliptical structure in which the vertical direction is in contact with each other and the horizontal direction is spaced from each other. It is to absorb double vibration or shock.

The first and second leaf springs 20 and 20 'are installed at an upper center of the lower die 10.

The first and second leaf springs 20 and 20 'may be installed to overlap each other as shown in FIG. 1 as well as to be installed orthogonal to each other as shown in FIG. 6, which is installed in the same direction. Compared to the distribution to the vibration and shock generated in the front and rear and left and right directions to be more effectively absorbed.

In this case, the first and second leaf springs 20 and 20 'are configured to fasten at least one or more fastening members 55 to fix the first and second leaf springs to each other at a position overlapping with each other.

The buffer member 30 is configured by vertically installing at least one position in the interior of the first leaf spring (20).

The cushioning member 30 is formed of a cushioning spring 31 as shown in FIGS. 1 to 6 or a cushioning tube 32 forming a pleat 32a in the up and down direction as shown in FIGS. 7 and 8, and the cushioning tube. By constructing a number of cushion balls 35 embedded therein, the cushion tube and the cushion ball is operated by a double buffer, but the cushion ball has a buffering force, respectively, so that the vibration or shock generated in the composite direction compared to the buffer spring To better absorb.

In addition, the assembly member 40 is composed of a bolt 41 and a nut 42 to penetrate the center of the lower die 10, the first and second leaf springs 20, 20 ′ and the shock absorbing member 30. Insert it so that it is assembled and installed.

In this case, the lower die 10 and the first and second leaf springs 20 and 20 'may be assembled by welding or bonding instead of the bolt 41 and the nut 42.

As reference numeral 32, reference numeral 32b denotes a through hole, and 35 and 35 'indicate a spring cover which is installed to face up and down inside the first leaf spring so as to insert and install the shock absorbing spring 31.

Next will be described the operation and action of the present invention configured as described above.

First, when explaining the assembly installation process of the seismic device 100 of the present invention, the circular first and second leaf springs 20, 20 'is installed on the lower die 10 to overlap each other inward, outward, After inserting the shock absorbing member 40 vertically into the first leaf spring, an assembly member is disposed at the center of the lower die 10, the first and second leaf springs 20, 20 ′ and the shock absorbing member 30. Insert 40 and combine with each other.

In this process, the first and second leaf springs 20 and 20 'are vertically disposed in a state in which the first and second leaf bodies 21 and 21' of different diameters are installed inward and outward. Press to install an elliptical structure in which the vertical direction is in contact with each other and the horizontal direction is spaced apart from each other.

The seismic device 100 of the present invention assembled as described above is installed between the switchgear 2 and the concrete structure 5 as shown in FIG. 9.

When vibrations or shocks occur due to an earthquake in the installed state as described above, the first and second leaf springs 20 and 20 'and the shock absorbing member 30 may vibrate or twist in the vertical and horizontal directions as well as in the shaking or twisting direction. It is to absorb the vibration or shock acting.

In particular, since the first and second leaf springs 20 and 20 ′ have an elliptical structure in which the vertical directions are in contact with each other and the horizontal directions are spaced apart from each other, while the first and second leaf springs 20 and 20 ′ overlap each other. Of course, the first and second leaf springs 20 and 20 'have an elliptical structure to effectively dampen the vibrations or shocks acting in the shaking or torsional direction. Compared with the simple structure, the vibration or shock is effectively absorbed and reduced or eliminated.

In addition, in the present invention, as shown in FIG. 6, the first and second leaf springs 20 and 20 'may be installed to cross at right angles to each other. In this case, as described above, the front, rear, left, and right sides may be installed. It absorbs and distributes vibrations and shocks in the vertical and horizontal directions, as well as vibrations and shocks acting in the shaking and torsion directions, so that the first and second leaf springs are installed in the same direction, and thus the buffering force is slightly reduced compared to the buffering force that operates the buffer. However, it is possible to more effectively distribute and offset the vibration or shock that can occur in various directions in various directions.

In addition, the present invention may be installed as a buffer spring 31 as the conventional shock absorbing member 30, but as shown in Figs. 7 and 8 a large number inside the cushion tube 32 to form a corrugation (32a) in the vertical direction By cushioning the built-in cushion ball 35 to absorb the vibration or shock by the cushion tube 32 and a plurality of cushion balls 35, as well as the cushioning ball 35 is a buffer spring while each of the cushioning operation Compared to the vibration and shock in the vertical, horizontal and composite directions is better than that.

Therefore, the present invention has an elliptical structure in a state in which the circular first and second leaf springs 20 and 20 'are inserted in and out of the lower die 10 and the buffer member 30 is vertically inserted therein. Pressing up and down, the vertical direction is in contact with each other and the horizontal direction is spaced apart from each other by a simple assembly structure, excellent manufacturing productivity and economic efficiency, excellent durability, vibration and shock in the vertical and horizontal directions due to earthquake, as well as shaking or It effectively absorbs and extinguishes vibrations or shocks acting in the torsional direction, thereby minimizing damage to switchboards.

2: switchboard 5: concrete structure
10: lower die 20,20 ': first and second plate-shaped body
22,22 ': incision 30: buffer member
32: cushion tube 35: cushion ball
40: assembly member 41: bolt
42: nut 100: leaf spring type switchgear seismic device

Claims (3)

In the switchgear seismic device that is installed between the switchboard (2) and the concrete structure (5) to absorb the vibration or shock generated by the earthquake,
Lower die 10;
The first and second plate-shaped bodies 21 and 21 ′ having different diameters on the lower die 10 and forming incisions 22 and 22 ′ in the center of the lower die 10 are overlapped inside and outside. A first and second leaf springs 20 and 20 'of an elliptical structure which are positioned and pressed in an up-down direction so that the vertical direction is in contact with each other and the horizontal direction is spaced from each other;
A buffer member 30 installed vertically in at least one position within the first leaf spring 20; And
The lower die 10, the first and second leaf springs (20, 20 '), the shock absorbing member 30 is composed of an assembly member 40 for coupling to each other,
The first and second leaf springs 20 and 20 'are installed so as to cross each other at right angles,
The cushioning member 30 is an oval, characterized in that composed of a cushion tube 32 to form a pleat (32a) around the side in the vertical direction, and a cushion ball 35 embedded in the cushion tube 32 a plurality Leaf spring type switchgear seismic device. delete delete

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