KR101774433B1 - A seismic structure of solar power generation device and energy storage device - Google Patents

Abstract

The present invention relates to an aseismatic structure of a photovoltaic power generator and an energy storage apparatus, the aseismatic structure which tightly fixates the photovoltaic power generator and the energy storage apparatus to a concrete structure, has a buffering function with only a shape of a bracket during impact from earthquake or external explosion, has an increased buffering effect since the aseismatic structure is formed as a double structure with a reinforcement member therein, and is installed in an easy manner. In other words, the aseismatic structure has an aseismatic device, installed between the main body and concrete structure which form the photovoltaic power generator and the energy storage apparatus, and thus can support the main body and reduce the effects of external impact. The aseismatic device is formed to have a horizontally symmetrical structure that includes a pair of support brackets arranged in the same structure. The support brackets are bent at 90 from the upper and lower portions of vertical units to form a horizontal support unit. In the centers of the vertical units, first arc units in the shape of a semicircle are formed to protrude toward the outside and, consequently, are formed to make the shape of a circle. A pair of the reinforcement members are fixated to the inside of the support bracket. In a location separated from the inside of the first arc unit, second arc units in the shape of a semicircle are formed to protrude toward the outside. Accordingly, the first and second arc units form the shapes of concentric circles, and, consequently, the aseismatic structure uses a double buffering system for safety.

Description

[0001] The present invention relates to a seismic structure of a solar power generation device and an energy storage device,

The present invention relates to a seismic resistant structure of a solar power generation device and an energy storage device, and is capable of firmly fixing a solar power generation device and an energy storage device to a concrete structure, and, when a shock is caused by an earthquake or an external explosion, The present invention relates to a solar power generation device and an energy storage device having an improved energy-saving effect and a buffering effect by providing a double function with a reinforcing member on the inside.

Generally, a photovoltaic power generation apparatus converts a DC power generated from a plurality of solar cell panels into a power to be used by a power conversion device such as an inverter, and supplies a stable power source to a user. The production power of such a photovoltaic power generation apparatus can be used immediately, but it is stored when the production power of the photovoltaic power generation apparatus is used together with the power supply system of the KEPCO system, and when the power shortage occurs, And an energy storage system (ESS: Energy Storage System).

Such a photovoltaic power generation device and an energy storage device are installed on a concrete structure. If a vibration or an impact occurs in a concrete structure due to natural disasters such as an earthquake, the solar panel may be damaged, There is a problem such as interruption of power supply due to damage of the relay or occurrence of a fire, and the main body may fall, resulting in a secondary accident that covers the operator.

In recent years, there have been a lot of seismic equipments applied to a power plant including a photovoltaic power generation facility to minimize damage from an earthquake.

As a related prior art, Japanese Unexamined Patent Publication No. 2012-0004314 (a seismic resistant device of a solar power generation facility) is provided with a body having a space portion therein and having coupling means for connection with a connection target structure at an upper portion or a lower portion thereof, And a fastening means for fastening the cushioning member to the connection target body while being coupled to the one-side connection target body while passing through the body, And the coupling means is coupled with the upper or lower structure and the coupling means is coupled with the structure connected to the opposite side of the coupling means so that the vibration energy in the lateral direction due to the earthquake And absorbing the light through the buffer member.

Although the prior art has a slight vibration damping effect due to the cushioning member provided inside the main body, the body coupled with the structure is formed in an empty state, and thus the ability to support the photovoltaic power generation equipment itself is poor So that the body can be deformed by the vertical load. Therefore, when the body is deformed due to a strong earthquake, the function of the cushioning member provided therein is lost.

Another prior art is disclosed in Japanese Patent No. 1625389 (a urethane shock absorber and a seismic spring-coupled type seismic isolation device for seismic isolation type seismic isolation device), which includes a seismic spring formed to surround a support portion inside upper and lower cases, And a urethane shock absorber in which a life span is formed to perform a buffering action.

However, the above-mentioned prior art is merely a construction reinforced by inserting a urethane cushion into a spring, and a buffering function can be secured to some extent through a spring and a urethane cushion. However, a portion supporting the main body of the power & There is a structural problem that the body can not be smoothly supported because it is all of the part and the case and the supporting part can be easily deformed by the load.

As another prior art, Japanese Patent No. 1539582 (seismic distribution board using an earthquake-proof damper) is constituted of a pair of first and second bodies, wherein a first body is formed with a round groove at a central portion, Wherein a round protrusion opposed to a round groove formed in the first body and the second body protrudes from the first body and the second body, and smooth joints are formed at both ends of the first body and the second body, A friction pad is formed on the round groove so as to face the round groove and is placed in the round groove and a highly damped rubber is disposed between the first and second bodies at both ends.

In the prior art, the buffer structure is composed of a friction pad and a high-damping rubber provided between the first body and the second body, and it is difficult to obtain a proper damping effect only by a high-damping rubber of a certain thickness, and the first body and the second body friction There is a problem that a large impact is transmitted as it is due to the structure in which the pad is brought into contact with the large surface with the space therebetween.

As described above, the conventional seismic resistant technologies include a buffer structure such as a spring. Although these techniques have excellent buffering effect on the spring itself, the installation structure is complicated, and a proper buffering effect can be obtained only in a specific direction. There are structural problems that are vulnerable to abilities and loads. When the shock absorber is supported by a cushioning material such as a rubber pad without using a spring, it is effective for a small vibration, but has a problem that a buffering effect is remarkably deteriorated when a large shock is generated.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a cushioning device capable of obtaining a cushioning effect only by a bracket shape itself without including a cushioning structure such as a spring, And it is an object of the present invention to provide a solar cell power generating device and an energy storage device having a simple structure that is not complicated in construction and has an overall structure that minimizes deformation due to a load or an impact.

The present invention relates to an earthquake-proof structure that is provided between a main body of a photovoltaic power generation device and an energy storage device and a concrete structure to mitigate the support of the main body and the external impact, The supporting bracket is formed by horizontally supporting the upper and lower portions of the vertical portion at an angle of 90 to form a first support portion having a semicircular first A pair of reinforcing members is fixed to the inside of the support bracket so that a circular arc second circular arc portion is formed at a position spaced apart from the inside of the first arc portion, And each of the first and second arcuate portions has a concentric circle shape so as to have a double buffer structure. .

Further, the supporting brackets are further provided with finishing plates respectively corresponding to the entire contact surfaces on the upper and lower surfaces, and are fixed together.

Further, the support bracket is made of a metal material and the reinforcing member is made of a metal material or a non-metal material.

In addition, the reinforcing member is formed such that an extension portion is formed at the upper and lower portions of the second arc portion on both sides, so that the extension portion can abut against the inner side of the vertical portion of the support bracket.

In addition, an extension is formed on the upper and lower portions of the second arcuate portion on either side of the reinforcing member, and is fixed to the inside of the vertical portion of the support bracket, and the other is formed with only the second arc portion except for the extended portion, And is fixed.

And a plurality of the above-mentioned earthquake-proof apparatuses may be connected to one side of the earthquake-proof apparatus so as to be installed in the form of one earthquake-proof apparatus.

The present invention is characterized in that a pair of first arcuate portions are formed at the center of the support bracket so that the bracket itself can provide a buffer function and a pair of support brackets composed of a vertical portion and a support portion are arranged symmetrically to each other, .

Further, the second arc portion of the reinforcing member is formed inside the first arc portion of the support bracket so that the buffering action can be made double, thereby increasing the buffering effect.

Also, since the structure is not complicated, the installation is simple and the manufacturing cost is low.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a seismic structure of a solar power generation device and an energy storage device of the present invention; Fig.
2 is a perspective view showing a state in which the vibration-proof device of the present invention is installed in a solar power generator;
3 is a perspective view showing a seismic isolation device of the present invention.
4 is a cross-sectional view showing the seismic system of the present invention
Fig. 5 is an exploded perspective view showing a state in which the finishing plate of the vibration-
6 is a cross-sectional view showing an example in which the support bracket and the reinforcing member of the vibration-proof device according to the present invention are fixed by bolt-
7 is a cross-sectional view showing that the reinforcing member of the present invention is made up of another embodiment
8 is a view showing an example in which a separate cushioning material is inserted into a spaced space between the first arc part and the second arc part of the present invention
9 to 10 are views showing that a plurality of the earthquake-proof apparatus of the present invention are used and connected in the form of one earthquake-proof apparatus

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 to 2, a main body 11 constituting a photovoltaic power generation apparatus 10 and an energy storage device 20 is provided between a concrete structure 21 and a concrete structure 30, To support the main body 11, 21 and mitigate external impact.

3 to 5, the support bracket 200 has a pair of support brackets 200 having the same structure, and the support bracket 200 has a vertical And a horizontal supporting part 220 is formed by bending the upper and lower parts of the upper part 210 at 90 degrees so that a semicircular first circular arc part 230 is protruded outward at the center of the vertical part 210 And a pair of reinforcement members 300 are fixed to the inside of the support bracket 200 so that the reinforcement members 300 are spaced apart from the inside of the first arc portion 230, The two circular arc portions 310 are formed so as to protrude outward so that the first circular arc portion 230 and the second circular arc portion 310 are formed into a concentric circle shape so as to have a double buffer structure .

The supporting bracket 200 is made of a metal material and the supporting parts 220 are bent at 90 degrees above and below the vertical part 210 so that the main body 11 and 21 can be lifted and supported. A bolt hole 240 is formed in the support part 220 and an anchor bolt is fixed to the concrete structure 30 at the lower part so that the upper part can be fixed to the main body 11 and 21 with bolts. In addition, a semicircular first arc portion 230 is formed at the center of the vertical portion 210. That is, the first arc part 230 of the support bracket 200 is arranged in a pair of left and right symmetrical shapes, so that the first arc part 230 has a circle shape.

The first arcuate portion 230 is formed in the support bracket 200 itself to increase the supportability against the load and to cause the first arcuate portion 230 to be slowly deformed in response to a strong load or an earthquake, will be.

In case of earthquake, tensile load and compressive load are repeated. In the case of general "I" type support bracket, the middle part is easily folded to one side during compression load and easily broken at tensile load.

When an earthquake occurs, when the tensile load is applied, the first circular arc portion 230 and the second circular arc portion 310 are deformed into an elliptic shape extending upward and downward, And it is a structure that can withstand the earthquake.

The reinforcing members 300 are provided in pairs and are fixed to the inside of the support bracket 200. A second arc portion 310 of a smaller size is formed in the same shape as the first arc portion 230 Double buffer structure. In this case, the second circular arc part 310 is formed not to be in contact with the inner side of the first circular arc part 230 but has a spacing space. The reason why the spacing space is provided is that if the first circular arc part 230 and the second circular arc part 230 If the circular arc portions 310 are closely contacted with each other without being separated from each other, the deformation itself may be slow and the buffering effect may be lowered. The first and second arcuate portions 230 and 310 may be deformed by the impact when the first arcuate portion 230 is deformed first and the impact is further increased. ) Are transformed together.

In addition to the support bracket 200 and the reinforcement member 300, the vibration isolator 100 of the present invention may further include a finishing plate 400. The finishing plate 400 is formed in a plate shape and corresponds to the entire area of the contact surfaces on the upper and lower surfaces of the support bracket 200 and is fixed together with the support bracket 200 to form a rigid support structure. The finishing plate 400 is also formed with a bolt hole 410 at a position corresponding to the bolt hole 240 formed in the support bracket 200.

The finishing plate 400 is made of a metal material and fixed to the support bracket 200 by welding. Although the bolt holes 240 and 410 may be passed through the bolt holes 240 and 410 in a state where the finish plate 400 is placed without being fixed by welding, the bolts may be fixed and installed at the same time. In order to have a solid structure, It is preferable to fix them integrally.

The reinforcing member 300 of the present invention may be made of a metal material or a non-metal material. In a facility requiring a strong supporting strength, a metal material is preferable, and in a facility requiring a relatively low supporting strength, it is preferable to use a non-metallic material. When the reinforcing member 300 is made of a metal material, as shown in FIG. 4, when the reinforcing member 300 is welded to the support bracket 200 and made of a non-metal such as reinforced plastic, The reinforcing member 300 may be inserted through the reinforcing member 300 in a bolt connection manner. In addition, when the reinforcing member 300 is thick or the number of the reinforcing members 300 is further increased, As shown in Fig.

4, the reinforcing member 300 is formed with an extended portion 320 on the upper and lower sides of the second circular arc portion 310 so that the extended portion 320 abuts against the supporting bracket 200, As shown in FIG. 7, the reinforcing member 300 may have an extended portion 320 formed at an upper portion and a lower portion of the second circular arc portion 310, And is fixed to the inside of the vertical part 210 of the support bracket 200 and the other part is formed in the shape of a circle by forming only the second arc part 310 except for the extension part 320 . In the embodiment of FIG. 7, both ends of the second arc part 310 where the extension part 320 is not formed are welded to the other side so that the use of materials is minimized.

8 is a view showing an example in which a separate cushioning material 500 is inserted into a space separated between the first and second arcuate portions 230 and 310 of the present invention. Rubber or urethane foam so as to increase the buffering effect and suppress the noise without interfering with the buffering action due to the deformation of the first and second arcuate portions 230 and 310.

The earthquake-proof apparatus 100 according to the present invention may be provided with one earthquake-proof apparatus 100 at each corner of the main body 11, 21. However, the large-scale photovoltaic apparatus 10 and the energy storage apparatus 20, it is preferable that a plurality of the earthquake-proof apparatuses 100 are provided as shown in FIGS. 9 to 10 and then connected to one side of the earthquake-proof apparatuses 100 so as to be installed in the form of one earthquake-proof apparatus 100.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: Photovoltaic device 20: Energy storage device
11, 21,: Body 30: Concrete structure
100: Seismic isolation device 200: Support bracket
210: vertical part 220:
230: first arc portion 240: bolt hole
300: reinforcing member 310: second arc portion
320: extension part 400: finishing plate
410: bolt hole 500: cushioning material

Claims (6)

A main body 11 constituting a solar power generation apparatus 10 and an energy storage apparatus 20. A seismic system 100 is installed between a concrete structure 21 and a concrete structure 30, In an earthquake-proof structure that can mitigate support and external impact,
The earthquake-proof apparatus 100 has a pair of support brackets 200 having the same structure, and has a symmetrical structure,
The support bracket 200 is bent at an angle of 90 degrees with respect to the vertical portion 210 to form a horizontal support portion 220. A center portion of the vertical portion 210 has a semicircular first circular arc portion 230 may protrude outward so as to be formed into a circle,
A pair of reinforcement members 300 are fixed to the inside of the support bracket 200 while the reinforcement member 300 is provided inside the first arc portion 230 with a circular second arc portion 310 outward So that the first and second arcuate portions 230 and 310 are formed in a concentric circle shape so as to have a double damping structure and the first arcuate portion 230 and the second arcuate portion 310 have a double- The first and second arcuate portions 310 and 310 are spaced apart from each other so that the first arc portion 230 is deformed first and then the second arc portion 310 is deformed together,
And a finishing plate (400) having a shape corresponding to the entire contact surface on the upper and lower surfaces of the support bracket (200) is further provided and fixed together.
delete The method according to claim 1,
Wherein the support bracket (200) is made of a metal material and the reinforcing member (300) is made of a metal material or a non-metal material.
The method according to claim 1,
The reinforcing member 300 is formed with an extension 320 at the upper and lower portions of the second arcuate portion 310 so that the extension 320 abuts against the inner side of the vertical portion 210 of the support bracket 200 So that the energy storage device can be fixed to the photovoltaic device and the energy storage device. The method according to claim 1,
An extension part 320 is formed on either one of the upper and lower parts of the second arc part 310 of the reinforcement member 300 to be fixed to the inside of the vertical part 210 of the support bracket 200, And the second arc part (310) except for the part (320) is formed and fixed in the shape of a circle.
The method according to claim 1,
Wherein a plurality of the earthquake-proof apparatuses (100) are connected to one side of the earthquake-proof apparatus (100) so as to be installed in the form of a single earthquake-proof apparatus (100)

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