KR102057536B1 - Earthquake resistant structure - Google Patents

Abstract

An earthquake-resistant structure fixed to a lower portion of an earthquake-resistant target comprises: a lower plate having an internal receiving space of a hollow portion; an upper plate having a top plate supporting the earthquake-resistant target, the upper plate being spaced apart from the lower plate and having a support post formed at a central portion thereof to protrude toward an open surface by the hollow portion; and elastic members provided on a lower surface of the support post, a side surface of the support post, and a lower surface of the top plate corresponding to an outer side of the support post, respectively, and elastically supporting the lower plate and the upper plate. According to an embodiment of the present invention, the earthquake-resistant structure is applied to the earthquake-resistant target that requires reinforcement for various earthquake-resistant and seismic isolation purposes, such as switchboard enclosures and ESS (energy storage system) containers as well as general buildings, thereby safely protecting the earthquake-resistant target even when an impact in vertical and horizontal directions due to an external force such as earthquake or vibration occurs, as well as when an omnidirectional impact that is difficult to determine the direction of the impact occurs.

Description

Earthquake resistant structure {EARTHQUAKE RESISTANT STRUCTURE}

The present invention relates to an earthquake resistant structure, and more specifically, to an earthquake resistant structure that can be applied to an earthquake-resistant object requiring reinforcement for various seismic or seismic purposes, including an ESS (Energy storage system) container as well as a switchgear enclosure and a general building. It is about.

In general, the energy storage device (ESS) is a storage device that stores the over-produced power and transmits when there is a power shortage. It is used to stabilize output when producing renewable energy such as solar and wind power, but it can be used in emergencies such as power outages and as a core infrastructure for the distribution of electric vehicles. The switchgear consists of a structure for attaching and supporting unit devices such as a circuit breaker or a protective relay and a collection of conductors for connecting and connecting the unit devices. The electrical devices are safely insulated and stored in a rectangular steel enclosure. .

In the home, it can be used as a product that saves electricity charges by storing night-time power, etc., at peak times, and lithium-ion batteries are used as energy storage device storage methods. Recently, as part of a mobile energy storage device that maximizes the merits of the container, it is applying a container system that inspects a megawatt energy storage device at several hundred kWh.

However, since the ESS container is fixedly installed on the ground, deformation may occur in the enclosure due to the vibration of the earthquake wave when an earthquake occurs, or various electrical devices installed therein may be damaged, and in some cases, the enclosure may fall down. Accordingly, even if the ESS container is vibrated by an earthquake, the enclosure is not deformed and the internal electrical equipment is not damaged, and the seismic prevention (or seismic and dustproof) can prevent the safety accidents such as fire by preventing the enclosure from falling. There is an urgent need for a structure with performance.

The present invention is to provide an earthquake-resistant structure that can be applied to earthquake-resistant objects that require reinforcement for various seismic or seismic purposes, including ESS (Energy storage system) container as well as switchgear enclosures, general buildings.

According to an aspect of the invention, the seismic structure is fixed to the lower portion of the earthquake-resistant object, the lower plate having an inner receiving space of the hollow; An upper plate having an upper plate supporting the seismic target object, the upper plate being spaced apart from the upper plate, the upper plate including a support post protruding toward an open surface by the hollow part at a central portion thereof; And an elastic member installed on a lower surface of the support post, a side surface of the support post, and a lower surface of the upper plate corresponding to an outer side of the support post, and an elastic member elastically supporting the lower plate and the upper plate. This is provided.

According to the seismic structure according to the embodiment of the present invention, as well as ESS (Energy storage system) container, as well as switchgear enclosures, general buildings, it is applied to the seismic target object that needs reinforcement for various seismic or seismic purposes, such as earthquake or vibration In addition to the impact in the vertical and horizontal directions due to external forces, as well as an omnidirectional impact that is difficult to determine the direction of the impact, there is an effect that can safely protect the seismic target object.

1 is a view illustrating the installation position of the seismic structure according to an embodiment of the present invention.
Figure 2 is a vertical cross-sectional view showing a seismic structure according to an embodiment of the present invention.
Figure 3 is an exemplary view showing the arrangement position of the elastic member when viewed from the top of the seismic structure of Figure 2;
4 is a view for explaining the operating state of the seismic structure according to the embodiment of the present invention when the displacement in the vertical direction occurs.
5 is a view for explaining the operating state of the seismic structure according to an embodiment of the present invention when a displacement in the horizontal direction occurs.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention.

In describing the present invention, when it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, numerals (eg, first, second, etc.) used in the description process of the present specification are merely identification symbols for distinguishing one component from another component. In addition, throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding the other components unless otherwise stated.

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

1 is a view illustrating an installation position of a seismic structure according to an embodiment of the present invention, Figure 2 is a vertical cross-sectional view showing a seismic structure according to an embodiment of the present invention, Figure 3 is a top of the seismic structure of Figure 2 4 is an exemplary view showing the arrangement position of the elastic member when viewed from, Figure 4 is a view for explaining the operating state of the seismic structure according to the embodiment of the present invention when the displacement in the vertical direction, Figure 5 Is a view for explaining the operating state of the seismic structure according to an embodiment of the present invention when the displacement in the horizontal direction occurs.

Referring to FIG. 1, the seismic structure 100 according to the exemplary embodiment of the present invention is fixedly installed at a lower position of the seismic target object 10. Here, Figure 1 (a) is a side view when the seismic structure (100-1, 100-2) according to the embodiment of the present invention is installed on the lower surface of the earthquake-resistant object (10), b) shows the bottom view at that time.

Referring to (a) and (b) of FIG. 1, a total of four seismic structures 100-1, 100-2, 100-3, and 100-4 are provided at each corner of the bottom surface of the earthquake-resistant object 10. The case which is fixedly installed is illustrated. However, it is obvious that the location and number of the earthquake-resistant structure 100 are installed may be variously modified according to need or design structure. In addition, although the case where the seismic structure has a cylindrical shape is illustrated as an example in FIG. 1, the appearance of the seismic structure may be variously modified. Hereinafter, referring to FIGS. 2 and 3, the structure of the seismic structure 100 will be described in more detail.

2 and 3, the seismic structure 100 according to the embodiment of the present invention, the lower plate (110a, 110b, 100c) having an inner receiving space of the hollow portion; It has a top plate 120 for supporting the bottom surface of the earthquake-resistant object 10, and is spaced apart on the upper portion of the lower plate, and includes a support post 125 protruding toward the open surface by the hollow portion in the center Upper plate; And an elastic member installed on a lower surface of the support post 125, a side surface of the support post 125, and a lower surface of the upper plate 120 corresponding to the outer side of the support post, for elastically supporting the lower plate and the upper plate. 132, 142, 152.

Here, the lower plate includes a lower plate 110a forming a bottom surface, a side wall 110b formed around the hollow portion, and an upper plate 110c extending in a lateral direction from an upper surface of the side wall. When the seismic structure 100 is installed according to an embodiment of the present invention, as illustrated in FIG. 2, the lower plate 110a and the sidewall 110b of the lower plate are embedded in the ground. In a fixed state, the upper plate 110c of the lower plate may be fixed to the ground surface.

In addition, according to an embodiment of the present invention, the elastic member is provided between the lower plate (110a) of the lower plate and the bottom surface of the support post 125 of the upper plate, the external force through the elastic support in the vertical direction At least one first elastic body 132 corresponding to the displacement in the vertical direction generated by A plurality of second elastic bodies installed between the side wall 110b of the lower plate and the side surfaces of the support posts 125 of the upper plate, and corresponding to the horizontal displacement generated by the external force through the elastic support in the horizontal direction; 142; It is installed between the upper plate (110c) of the lower plate and the bottom of the portion of the upper plate 120 of the upper plate corresponding to the outside of the support post 125, the vertical direction generated by the external force through the elastic support in the vertical direction It may include; a plurality of third elastic body 152 to correspond to the displacement of.

In this case, as shown in FIG. 3, the plurality of second elastic bodies 142 may be installed at positions spaced at equal intervals along the circumference of the support post 125. Similarly, the plurality of third elastic bodies 152 may also be installed at equally spaced positions along the outer circumference of the support post 125 when the center of the upper plate is referred to.

Although FIG. 3 illustrates a case in which a total of four second elastic bodies 142 and four third elastic bodies 152 are equally arranged at intervals of 90 degrees, respectively, the number of installations, equal arrangement intervals, etc. of each elastic body are design criteria. Depending on this, other variations are possible, of course. However, hereinafter, it will be described with reference to FIG. 3 for convenience and concentration.

For example, according to FIG. 3A, when each of the third elastic bodies 152 is disposed at the position on the same vertical cross-section when the second elastic body 142 is installed (ie, the seismic resistance) Based on the projection of FIG. 3 as viewed from the top of the structure, both the second elastic body 142 and the third elastic body 152 are identically disposed in the directions corresponding to 3 o'clock, 6 o'clock, 9 o'clock, and 12 o'clock. Case).

As another example, according to FIG. 3B, each of the third elastic bodies 152 is perpendicular to the intermediate point between two adjacent vertical cross sections when the second elastic bodies 142 are positioned relative to each other. When disposed at a location on the cross section (ie, based on the projection view of FIG. 3 when the seismic structure is viewed from the top, the third elastic body 152 may be at 12 o'clock and relative to the orientation in which the second elastic body 142 is disposed). A case disposed in an orientation corresponding to midway between 3 o'clock, midway between 3 and 6 o'clock, midway between 6 and 9 o'clock, and midway between 9 and 12 o'clock).

According to the arrangement as shown in (a) or (b) of FIG. 3, independence of the elastic restoring force and the restoring direction of the individual elastic bodies is ensured at the installation positions of the second elastic body 142 and the third elastic body 152, respectively. Since the total elastic restoring force and the restoration direction added according to the whole combination can be very diversified in vector, there is an advantage that can be effectively defended even when an external force having a random direction occurs.

In addition, according to an embodiment of the present invention, the first ball member 134 is disposed on the upper end of the first elastic body 132, the first surface as the displacement in the horizontal direction is generated on the bottom surface of the support post 125 By providing the first guide groove 122 for guiding the sliding operation in the horizontal direction through the ball member 134, even if a displacement outside the predetermined threshold range in the horizontal direction occurs, it is possible to prevent the operation outside the threshold range from occurring. It becomes possible.

Similarly, according to the embodiment of the present invention, the second elastic member 142 includes a second ball member 144 disposed at one end in the direction of the side wall 110b of the lower plate, and includes a side wall of the lower plate ( As the displacement in the vertical direction occurs in a predetermined portion of the 110b), the second guide groove 112 for guiding the sliding operation in the vertical direction through the second ball member 144 is provided, thereby deviating from the predetermined threshold range in the vertical direction. Even if the displacement occurs, it is possible to prevent the operation outside the critical range from occurring.

Similarly, according to the embodiment of the present invention, the third ball member 154 disposed on the upper end of the third elastic body 152 is included, and the upper plate 120 of the upper plate corresponding to the outside of the support post 125 Since a third guide groove 124 is provided at a predetermined portion of the bottom to guide the sliding operation in the horizontal direction through the third ball member 154, even if a displacement is generated outside the predetermined threshold range in the horizontal direction, the third guide groove 124 may be out of the threshold range. The operation can be prevented from occurring.

According to the above-described configuration, the earthquake-resistant structure 100 according to the embodiment of the present invention, as shown in Figure 4, when the displacement in the vertical direction caused by factors such as earthquake (in the case of Figure 4 the upper ground The case of lifting in the direction), by the elastic restoring force in the vertical direction by the first elastic body 132 and the third elastic body 52, and / or the second ball member 144 and the second guide groove ( Through the restriction of the vertical displacement so as not to deviate from the predetermined threshold range by 112, the seismic target object 10 can be protected.

In addition, the earthquake-resistant structure 100 according to an embodiment of the present invention, as shown in Figure 5, when the displacement in the horizontal direction caused by factors such as earthquake (exemplifies the case where the ground is moved to the right direction), By the elastic restoring force in the horizontal direction by the second elastic body 142 or / and the first ball member 134, the first guide groove 122, the third ball member 154, and the third guide groove 124. By limiting the horizontal displacement so as not to deviate from the predetermined threshold range by, it is possible to protect the earthquake-resistant object (10).

According to the seismic structure according to the embodiment of the present invention as described above, by applying to a seismic target object that requires reinforcement for various seismic or seismic purposes, such as a switchgear enclosure, an ESS (Energy storage system) container, as well as general buildings, In addition to the impact in the vertical and horizontal directions due to an external force such as an earthquake or vibration, there is an effect that can safely protect the earthquake-resistant object even in the case of an omnidirectional shock that is difficult to determine the direction of the impact.

Although the above has been described with reference to embodiments of the present invention, those skilled in the art may variously modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. And can be changed easily.

Claims (8)

As a seismic structure fixed to the lower part of the earthquake-proof object,
A lower plate having an inner receiving space of the hollow part;
An upper plate having an upper plate for supporting the seismic target object, the upper plate including a support post spaced apart from an upper portion of the lower plate and protruding toward an open surface by the hollow portion at a central portion thereof; And
And a resilient member disposed on a lower surface of the support post, a side surface of the support post, and a lower surface of the upper plate corresponding to an outer side of the support post, for elastically supporting the lower plate and the upper plate.
The lower plate includes a lower plate forming a bottom surface, a side wall formed around the hollow portion, and an upper plate extending in a lateral direction from an upper surface of the side wall.
The lower plate and the side wall of the lower plate is fixedly installed in an embedded state into the ground (ground), the upper plate of the lower plate is fixed to the ground surface,
The elastic member,
At least one first elastic body provided between the lower plate of the lower plate and the bottom surface of the support post of the upper plate and corresponding to a vertical displacement generated by an external force through elastic support in a vertical direction;
A plurality of second elastic bodies installed between the side wall of the lower plate and the side surface of the support post of the upper plate and corresponding to a horizontal displacement generated by an external force through elastic support in a horizontal direction; And
A plurality of agents installed between the upper plate of the lower plate and the bottom surface of the upper plate corresponding to the periphery of the support post of the upper plate and corresponding to the displacement in the vertical direction generated by an external force through elastic support in the vertical direction; 3, including; and
A first ball member disposed on an upper end of the first elastic body,
A first guide groove for guiding the sliding operation in the horizontal direction through the first ball member is provided on the bottom surface of the support post as the horizontal displacement occurs.
A second ball member disposed at one end in a side wall direction of the lower plate of the second elastic body,
As a displacement in the vertical direction occurs in a predetermined portion of the side wall of the lower plate, a second guide groove for guiding the sliding operation in the vertical direction through the second ball member is provided.
A third ball member disposed on an upper end of the third elastic body,
A third guide groove for guiding the sliding operation in the horizontal direction through the third ball member is provided at a predetermined portion of the bottom surface of the upper plate of the upper plate corresponding to the outer side of the support post.
By limiting horizontal displacement by the first and third ball members and the first and third guide grooves, the first and third ball members do not depart from a predetermined threshold range in the horizontal direction by the second elastic body,
The seismic structure of the second ball member and the second guide groove by limiting the vertical displacement, so as not to deviate from the predetermined threshold range of the vertical direction by the first, third elastic body.
delete delete The method of claim 1,
The plurality of second elastic bodies are respectively provided at positions spaced at equal intervals along the circumference of the support post,
The plurality of third elastic body, characterized in that installed in each of the positions spaced at equal intervals along the outer periphery of the support post, based on the center of the upper plate, earthquake-resistant structure.
The method of claim 4, wherein
Each of the third elastic body,
The intermediate point between two adjacent vertical cross-sections when positioned on the same vertical cross-section when the second elastic body is installed, or based on the installed position of each second elastic body. An earthquake resistant structure, characterized in that it is disposed at a position on a vertical cross section.
delete delete delete

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