KR102615089B1 - Modular Isolation Device - Google Patents

Abstract

The present invention relates to a modular seismic isolation device, comprising: a base frame extending in the longitudinal direction; a slide frame installed on top of the base frame and coupled to allow relative slide movement; an elastic unit installed within the base frame and providing elastic force when the slide frame slides; and a sliding unit installed between the base frame and the slide frame and guiding the sliding movement of the slide frame with respect to the base frame.
Accordingly, simple assembly is provided by configuring a plurality of standardized seismic isolation devices and connecting them by arranging them in series or parallel direction, thereby greatly improving mobility and constructability for assembly. Since the seismic isolator itself does not protrude outward from the floor surface of the protective facility, the area of the installation space can be effectively reduced, and the risk of safety accidents such as tripping over the seismic isolator and falling has the effect of fundamentally blocking it.

Description

Modular Isolation Device

The present invention relates to a modular seismic isolator, and more specifically, by compactly configuring one standardized seismic isolator modular unit, not only can the mobility and constructability for assembly of the seismic isolator be efficiently improved, but also it can be used to expand and expand facilities. This relates to a modular seismic isolation device that is easy to disassemble and assemble for downsizing.

In general, earthquakes not only cause a lot of damage, such as collapse and damage to buildings, but also cause enormous damage not only to the inside of the building but also to surrounding facilities, even if the building fortunately does not collapse.

As an example of the conventional measures and methods to prevent such earthquake damage, the building itself is equipped with an earthquake-resistant structure, a vibration-isolating structure, and a seismic isolation structure to prevent earthquakes to safely protect protective facilities (electrical communication facilities) that are subject to earthquake damage. Design is being done, but these technologies cannot be applied to existing buildings because they cannot be applied except at the time of new building construction.

Accordingly, technology is being installed to suppress the direct transmission of seismic force to facilities other than buildings, that is, seismic isolation devices that are inserted between the floor and facilities to absorb earthquake shaking.

The seismic isolator is designed to prevent resonance when an earthquake occurs by installing a vibration attenuation device so that the natural resonance frequency of the facility protected from earthquakes or vibrations deviates from the excellent resonance frequency band of the earthquake.

In particular, electrical and communication equipment that is very sensitive to seismic vibrations has a limit to how much it can withstand earthquakes, and it is difficult to ensure stability simply by applying earthquake-resistant design to the equipment itself, so various seismic isolation devices are required to protect these equipment from earthquakes. It is being developed.

The seismic isolation device according to the prior art consists of a ball bearing between the upper frame and the lower frame that are separated from each other to minimize the seismic force by moving the upper frame when an earthquake occurs, and is composed of a wire clip to prevent the movement of the upper frame with respect to the lower frame. do.

However, the seismic isolation device according to the prior art not only had the problem of requiring complicated on-site work time to connect the upper frame and lower frame to each other using a plurality of fastening bolts and separate connecting bars at the work site, but also had the problem of requiring complicated on-site work time. As the protective facility itself is manufactured to a size wider than the floor surface of the protective facility, an installation space larger than the corresponding seismic isolator must be secured, and safety accidents such as workers tripping over the seismic isolator and falling while moving frequently occur. There was this.

Korean Patent Publication No. 0956487 (2010.04.28)

The present invention was developed to solve the above problems. By compactly configuring one standardized seismic isolation modular unit, not only can the mobility of the seismic isolator device and constructability for assembly be efficiently improved, but it can also be used to expand and expand facilities. The aim is to provide a modular seismic isolation device that is easy to disassemble and assemble for downsizing.

In order to achieve the above-mentioned object, the modular seismic isolation device according to the present invention includes a base frame extending in the longitudinal direction; a slide frame installed on top of the base frame and coupled to allow relative slide movement; an elastic unit installed within the base frame and providing elastic force when the slide frame slides; and a sliding unit installed between the base frame and the slide frame and guiding the sliding movement of the slide frame with respect to the base frame.

The sliding unit includes a plurality of rollers disposed at intervals along the longitudinal direction of the base frame and the slide frame; and a roller guide plate forming a plurality of receiving portions that independently accommodate the plurality of rollers.

A first installation groove and a second installation groove are formed on one side and the other side of the base frame and the slide frame in the width direction, respectively, to accommodate the sliding unit, respectively, and are parallel to the first installation groove and the second installation groove of the base frame. A third installation groove and a fourth installation groove are formed to accommodate the elastic unit, and a first coupling groove and a second coupling groove are formed in the slide frame at positions corresponding to the third installation groove and the fourth installation groove. It is characterized by

The elastic unit includes a pair of springs spaced apart from one side and the other in the longitudinal direction of the third installation groove and the fourth installation groove of the base frame, a guide rod respectively inserted into the pair of springs to prevent the spring from being separated, It is inserted into a guide rod, and one side is inserted into the third installation groove and the fourth installation groove, and the other side is inserted into the first coupling groove and the second coupling groove, and moves linearly along the third installation groove and the fourth installation groove. It is characterized by being composed of connection blocks.

A stopper member supporting the spring and a position adjustment bolt for varying the position of the stopper member are installed on both sides of the third installation groove and the fourth installation groove of the base frame in the longitudinal direction.

Finishing plates are installed at both longitudinal ends of the base frame and the slide frame to prevent the elastic unit and the sliding unit from being separated.

The upper part of the slide frame further includes a support member for supporting the protection facility, and a guide groove is formed to guide the support member so that it can move in a straight line.

The modular seismic isolator is comprised of a plurality of devices, including a first pair arranged parallel to each other, and a second pair arranged parallel to each other at right angles to the first pair above the first pair.

The modular seismic isolator according to the present invention, configured as described above, consists of a plurality of standardized seismic isolators and provides simple assembly by arranging and connecting them in series or parallel direction, thereby providing mobility and assembly. Not only can the efficiency of constructability be greatly improved, but the seismic isolator itself does not protrude outward beyond the floor surface of the protective facility, effectively reducing the area of installation space, and the risk of safety accidents such as tripping over the seismic isolator and falling. It also has the effect of fundamentally blocking it.

Figure 1 is a perspective view showing a modular seismic isolation device according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of Figure 1.
Figure 3 is a cross-sectional view of Figure 1.
Figure 4 is a partial enlarged view showing the configuration and operation of the elastic unit installed in the base frame of Figure 2.
Figure 5 is a plan view of the base frame of Figure 2.
Figure 6 is a schematic perspective view showing a structure in which a plurality of modular seismic isolation devices according to an embodiment of the present invention are configured and connected to each other.

Hereinafter, a preferred embodiment of the modular seismic isolator according to the present invention will be described in detail based on the attached drawings.

For reference, the terms and words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor should appropriately use the concept of terms to explain his or her invention in the best way. It must be interpreted with meaning and concept consistent with the technical idea of the present invention based on the principle of definability.

In addition, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent the entire technical idea of the present invention, so they may be replaced at the time of filing this application or thereafter. It should be understood that there may be various equivalents and variations.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the attached FIGS. 1 to 6.

As shown, the modular seismic isolator according to the present invention includes a base frame 100 extending in the longitudinal direction, a slide frame 200 installed on the upper part of the base frame 100 and coupled to enable relative slide movement, An elastic unit 300 is installed in the base frame 100 and provides elastic force during the sliding movement of the slide frame 200, and is installed between the base frame 100 and the slide frame 200 and the slide frame 200 It includes a sliding unit 400 that guides the sliding movement with respect to the base frame 100.

First, the base frame 100 is a rectangular plate-shaped member that extends in the longitudinal direction and has a predetermined thickness, and is a component that is fixed in surface contact with the ground.

A first installation groove 110 and a second installation groove 120 recessed inward are formed on one side and the other side in the width direction of the base frame 100 according to the present invention, respectively, to accommodate a sliding unit 400, which will be described later. do.

The first installation groove 110 and the second installation groove 120 have a channel-type structure with a predetermined area.

In addition, a third installation groove 130 and a fourth installation groove ( 140) is formed.

The third installation groove 130 and the fourth installation groove 140 are shown as being disposed between the first installation groove 110 and the second installation groove 120, but they can also be installed outside.

The third installation groove 130 and the fourth installation groove 140 have an arc-shaped cross-sectional structure so that the width of the open space is narrowed.

That is, by preventing the connection block 330 of the elastic unit 300 installed in the third installation groove 130 and the fourth installation groove 140 from being separated in the vertical direction, the base frame 100 and the slide The frame 200 can be firmly connected.

In addition, a plurality of screw fastening holes 101 are formed at both longitudinal ends of the base frame 100 for fastening the finishing plate 150, which will be described later.

Additionally, coupling grooves 102 for fastening are formed on both sides along the longitudinal direction of the base frame 100 so that other additional components can be coupled as needed.

The slide frame 200 extends to a length corresponding to the base frame 100 and is installed in a structure in which it is placed in parallel on top of the base frame 100, and is capable of relative slide movement with respect to the longitudinal direction of the base frame 100. It is an element.

That is, the slide frame 200 is coupled to the base frame 100 so as to be relatively movable, so that the slide frame 200 supports the protection facility 10 when vibration due to an earthquake or external shock is applied. It provides the effect of efficiently absorbing or dispersing impact energy through the action of advancing and retreating.

On the lower surface of the slide frame 200, the first installation groove 210 and the second installation groove 210 have the same structure corresponding to the first installation groove 110 and the second installation groove 120 of the base frame 100 described above. An installation groove 220 is formed.

That is, the first installation grooves 110,210 and the second installation grooves 210,220 formed in the base frame 100 and the slide frame 200 surround the sliding unit 400 and accommodate the upper and lower parts, respectively. It is a structure that does.

Additionally, a first coupling groove 230 and a second coupling groove 240 are formed in the slide frame 200 at positions corresponding to the third installation groove 130 and the fourth installation groove 140.

The first coupling groove 230 and the second coupling groove 240 may extend in the longitudinal direction of the slide frame 200, but may also be formed limited to some sections.

Similarly, a plurality of screw fastening holes 201 for fastening the finishing plate 150 are formed at both longitudinal ends of the slide frame 200, and coupling grooves 202 for fastening are formed on both sides.

In addition, the upper part of the slide frame 200 further includes a support member 250 for supporting the protection facility 10.

The support member 250 includes a first support part 251 fixed to the slide frame 200, protrudes upward from one end of the first support part 251, and forms a bottom surface of the protection facility 10. It consists of a second support portion 252 that supports it.

That is, the bottom surface of the second support part 252 forms a stepped space spaced apart from the upper surface of the slide frame 200. This allows the center of gravity of the protection facility to move toward the first support portion 251 rather than the second support portion 252 when impact energy due to an earthquake occurs, thereby increasing stability to prevent fall.

Additionally, a guide groove 260 is formed on the upper surface of the slide frame 200 to guide the support member 250 so that it can move back and forth.

Therefore, it provides a very useful effect of being able to vary the position of the support member 250 in response to the size of the protection facility 10.

For this purpose, it is natural that a guider hole 251a is formed in the second support member 252 into which a guider (not shown) connected to the guide groove 260 is coupled.

In addition, finishing plates 150 are installed at both longitudinal ends of the base frame 100 and the slide frame 200 to prevent the elastic unit 300 and the sliding unit 400 from being separated.

Meanwhile, the elastic unit 300 is installed in the third installation groove 130 and the fourth installation groove 140 of the base frame 100, and provides elastic force during the sliding movement of the slide frame 200 to externally It serves to enable elastic movement of the protection facility 10 against impact energy.

That is, the elastic unit 300 can not only effectively absorb and spray the impact energy transmitted to the protection facility 10 through the elastically shaking buffering force, but also can protect the protection facility 10 when the external impact energy is extinguished. It provides the effect of safely returning to its original position.

The elastic unit 300 according to the present invention includes a pair of springs 310 spaced apart from one side and the other in the longitudinal direction of the third installation groove 130 and the fourth installation groove 140 of the base frame 100. , a guide rod 320 that is respectively inserted into the pair of springs 310 to prevent the springs from coming off, and is inserted into the guide rod 320 and has one side of the third installation groove 130 and the fourth installation groove 140. ) and the other side is inserted into the first coupling groove 230 and the second coupling groove 240, and moves linearly along the third installation groove 130 and the fourth installation groove 140 ( 330).

The elastic units 300 are arranged in a plurality of configurations, each installed in the third installation groove 130 and the fourth installation groove 140, to prevent vibration through the elastic restoring force caused by the pre-compression of the spring 310. It plays a role in absorption and dispersion.

In addition, as shown in FIG. 5, stopper members 340 for supporting the spring 310 are provided on both longitudinal sides of the third installation groove 130 and the fourth installation groove 140 of the base frame 100. , a position adjustment bolt 350 that changes the position of the stopper member 340 is installed, respectively.

That is, when the position adjustment bolt 350 is screwed and rotated in the direction of tightening or loosening, the tension of the spring 310 can be increased or decreased in the process of straight movement of the stopper member 340 in the forward and backward directions, so the tension of the spring 310 can be increased or decreased accordingly. It provides the effect of being able to adjust the elasticity of the spring in various ways.

And the cross-sectional shape of the connection block 330 is formed as a complementary shape corresponding to the shapes of the third and fourth installation grooves 130 and 140 and the first and second coupling grooves 230 and 240, respectively, and the maximum width of each shape is the above. It is larger than the opening width of the third and fourth installation grooves (130 and 140) and the first and second coupling grooves (230 and 240) to prevent them from being separated. In other words, the base frame 100 and the slide frame 200 have a structure that cannot be separated in the vertical direction through the connection block 330.

In addition, the connection block 330 can be fixed to the slide frame 200 by fastening means such as a fixing bolt 331.

The fixing bolt 331 can be fastened to the connection block 330 through the guide groove 260 of the slide frame 200.

However, the fixing bolt 331 may be arranged independently of the guide groove 260.

Meanwhile, the sliding unit 400 is installed between the base frame 100 and the slide frame 200, and smoothly guides the sliding movement of the slide frame 200 relative to the base frame 100. performs its role.

Specifically, the sliding unit 400 includes a plurality of rollers 410 arranged at intervals along the longitudinal direction of the base frame 100 and the slide frame 200, and the plurality of rollers 410 are independently It consists of a roller guide plate 420 formed with a plurality of receiving parts 421 for receiving.

The roller 410 is a cylindrical roller that allows smooth sliding in a straight direction.

The roller guide plate 420 serves to allow the rollers 410 to rotate in any direction or roll in parallel in one direction at regular intervals without narrowing or moving away from each other.

A first reinforcement plate 430 and a second reinforcement plate 440 may be interposed between the base frame 100 and the roller 410 and the slide frame 200 and the roller 410, respectively.

The first reinforcement plate 430 and the second reinforcement plate 440 prevent the roller 410 from directly contacting the first installation grooves 110 and 210 and the second installation grooves 120 and 220, thereby It is possible to fundamentally prevent the inner surfaces of the first installation grooves 110 and 210 and the second installation grooves 120 and 220 from being deformed or cracked, thereby providing the effect of further improving durability and reliability of sliding action.

As such, the modular seismic isolator according to the present invention consists of a plurality of standardized seismic isolators and provides simple assembly by arranging and connecting them in series or parallel direction, thereby improving mobility and constructability for assembly. Not only can it greatly improve the It has the advantage of being able to be blocked.

In addition, as shown in FIG. 6, the modular seismic isolator according to the present invention provides a differentiated installation method that consists of a plurality of standardized single seismic isolators and connects and combines them, arranged in parallel to each other. The basic structure includes a first pair (100A) and a second pair (100B) arranged parallel to each other at right angles to the first pair on the first pair (100A).

And at both ends of the base frame 100 of the second pair 100B, which are arranged parallel to each other and perpendicular to the first pair 100A, there is a longitudinal direction of the slide frame 200 of the first pair 100A. A connection plate 600 is installed that is screwed to the side and connected for fixation.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention in the technical field to which the present invention pertains. It will be obvious to anyone with ordinary knowledge.

100: base frame
110: first installation groove
120: Second installation groove
130: Third installation groove
140: Fourth installation groove
200: Slide frame
210: first installation groove
220: Second installation groove
230: first coupling groove
240: second coupling groove
250: support member
300: Elastic unit
310: spring
320: Guide rod
330: Connection block
400: sliding unit
410: roller
420: Roller guide plate
430: 1st reinforcement plate
440: 2nd reinforcement plate

Claims (8)

A base frame 100 extending in the longitudinal direction;
A slide frame 200 installed on the upper part of the base frame 100 and coupled to enable relative slide movement;
An elastic unit 300 installed in the base frame 100 and providing elastic force during sliding movement of the slide frame 200; and
A sliding unit 400 installed between the base frame 100 and the slide frame 200 and guiding the sliding movement of the slide frame 200 with respect to the base frame 100;
Including,
The sliding unit 400,
A plurality of rollers 410 arranged at intervals along the longitudinal direction of the base frame 100 and the slide frame 200; and
A roller guide plate 420 formed with a plurality of receiving portions 421 that independently accommodate the plurality of rollers 410;
Including,
First installation grooves 110 and 210 and second installation grooves 120 and 220 are formed on one side and the other side of the base frame 100 and the slide frame 200 in the width direction, respectively, to accommodate the sliding unit, respectively,
The base frame 100 has a third installation groove 130 and a fourth installation groove 140 that accommodate the elastic unit 300 in parallel with the first installation groove 110 and the second installation groove 120. is formed,
A module characterized in that the first coupling groove 230 and the second coupling groove 240 are formed in the slide frame 200 at positions corresponding to the third installation groove 130 and the fourth installation groove 140. type seismic isolation device.
delete delete According to paragraph 1,
The elastic unit 300 is,
A pair of springs 310 spaced apart from one side and the other in the longitudinal direction of the third installation groove 130 and the fourth installation groove 140 of the base frame 100,
A guide rod (320) inserted into each of the pair of springs (310) to prevent the springs from coming off,
It is inserted into the guide rod 320, one side is inserted into the third installation groove 130 and the fourth installation groove 140, and the other side is inserted into the first coupling groove 230 and the second coupling groove 240. A modular seismic isolation device characterized in that it consists of a connection block (330) that moves linearly along the third installation groove (130) and the fourth installation groove (140).
According to paragraph 4,
On both sides of the third installation groove 130 and the fourth installation groove 140 of the base frame 100 in the longitudinal direction, a stopper member 340 supports the spring 310, and the position of the stopper member 340 A modular seismic isolation device characterized in that position adjustment bolts 350 that vary are installed.
A base frame 100 extending in the longitudinal direction;
A slide frame 200 installed on the upper part of the base frame 100 and coupled to enable relative slide movement;
An elastic unit 300 installed in the base frame 100 and providing elastic force during sliding movement of the slide frame 200; and
A sliding unit 400 installed between the base frame 100 and the slide frame 200 and guiding the sliding movement of the slide frame 200 with respect to the base frame 100;
Including,
Modular seismic isolation, characterized in that finishing plates 150 are installed at both longitudinal ends of the base frame 100 and the slide frame 200 to prevent the elastic unit 300 and the sliding unit 400 from separating. Device.
A base frame 100 extending in the longitudinal direction;
A slide frame 200 installed on the upper part of the base frame 100 and coupled to enable relative slide movement;
An elastic unit 300 installed in the base frame 100 and providing elastic force during sliding movement of the slide frame 200; and
A sliding unit 400 installed between the base frame 100 and the slide frame 200 and guiding the sliding movement of the slide frame 200 with respect to the base frame 100;
Including,
The upper part of the slide frame 200 further includes a support member 250 for supporting the protection facility 10, and a guide groove 260 is formed to guide the support member 250 so that it can move in a straight line. A modular seismic isolation device.
A base frame 100 extending in the longitudinal direction;
A slide frame 200 installed on the upper part of the base frame 100 and coupled to enable relative slide movement;
An elastic unit 300 installed in the base frame 100 and providing elastic force during sliding movement of the slide frame 200; and
A sliding unit 400 installed between the base frame 100 and the slide frame 200 and guiding the sliding movement of the slide frame 200 with respect to the base frame 100;
It consists of a plurality of modular seismic isolating devices including a first pair (100A) arranged parallel to each other, and a second pair arranged parallel to each other at right angles to the first pair on the first pair (100A). A modular seismic isolation device comprising (100B).

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