KR101968040B1 - A cassette type aseismic reinforcing structure - Google Patents

Abstract

The present invention relates to a cassette type aseismic reinforcement structure capable of forming and/or expanding a shelter in case of an earthquake by enhancing the aseismic intensity of a building. The present invention includes: an upper plate preventing debris from falling from the ceiling; a lower plate placed on the floor of a building; a supporter having an internal storage space; a moving part including wheels installed in the lower part of the supporter and a support body supporting the wheels; and a fixing member penetrating the support body.

Description

[0001] The present invention relates to a cassette type aseismic reinforcing structure,

The present invention relates to a cassette type seismic strengthening structure, and more particularly, to a cassette type seismic reinforcing structure capable of securing a safe evacuation route and a temporary shelter when a plurality of seats are installed in a moving passage such as a corridor when an earthquake occurs, Reinforced structure.

Generally, in large public places, buildings having different building timings coexist. In this case, there are many old buildings in which the earthquake-resistant design is not reflected during the construction of relatively old buildings, and the old buildings are small It is easy to be destroyed by earthquake of scale, and there is a danger that large-scale life damage is caused.

In addition, with the improvement of the quality level and improvement of the utilization level of the old buildings, there is a growing interest in reinforcing the old buildings to meet the seismic design standards. In addition, There is also a growing interest in reinforcing buildings.

Accordingly, it is possible to apply seismic reinforcement to buildings by applying a method of stacking bricks or blocks on pillars or inner and outer walls of buildings, and applying wet concrete concrete slabs to put concrete on site.

However, when a brick or block is simply reinforced, the compressive load can withstand a certain degree, but the tensile strength against the tensile strength is considerably reduced, so that the durability of the building can not be improved. In the case of reinforcing work using the method, field formwork and construction work are indispensably required, and a large amount of construction waste is generated and the construction is complicated, resulting in a problem of deterioration in workability and economy.

The object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a structure capable of enhancing the earthquake-proof strength of a building while allowing easy installation so as to correspond to the internal area of a building, And an object of the present invention is to provide an anti-seismic reinforcing structure capable of preventing an inconvenience.

The cassette type earthquake-proof reinforcement structure of the present invention includes an upper plate disposed to face a ceiling of a building and preventing debris from peeling off from the ceiling when the earthquake occurs, a lower plate seated on the floor of the building, A supporter that supports the upper plate in a vertical direction with respect to the lower plate and has a bar shape or a flat plate shape and has a receiving space formed therein; A moving part including a wheel installed at a lower part of the supporter so as to be completely housed in the lower receiving space of the supporter or at least partially exposed to the lower part of the lower plate and a support for supporting the wheel, The space that can be generated is minimized, And a fixing member inserted into the inner circumferential surface of the supporter for fixing the upper and lower positions of the wheel and penetrating the support body and detachably installed or installed in the inner space of the building to reinforce the earthquake- .

Preferably, the cassette type seismic strengthening structure includes a plurality of seismic retrofitting modules including a part of the divided upper plate, a part of the divided lower plate, and a supporter, and coupled to each other in the longitudinal direction; And a connection unit detachably connecting the plurality of seismic reinforcement modules to each other so that the plurality of seismic reinforcement modules are not separated from each other even if a three-axis external force due to an earthquake is applied.

Preferably, the cassette type seismic strengthening structure further comprises a plurality of dedicated space portions included in the building, and a common space portion formed at a position adjacent to the plurality of dedicated space portions and connecting the plurality of dedicated space portions And is installed or installed in the common space part.

Preferably, the cassette type seismic strengthening structure further comprises: a lifting member provided to adjust the height of the upper plate while one end is coupled to the upper end of the supporter and the other end is coupled to the lower surface of the upper plate; And further comprising:

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Further, preferably, the cassette type earthquake-proof reinforcement structure further includes an auxiliary power supply unit provided for securing power in an emergency and supplying an auxiliary power to the earthquake-proof reinforcement structure when the external power supply to the building is shut off .

According to an aspect of the present invention, there is provided an earthquake-resistant evacuation space in which an entire earthquake-proof reinforcement structure is provided.

Further, the cassette type earthquake-proof reinforcement structure of the present invention can firmly perform seismic strengthening of a building through an upper plate, a supporter and a lower plate provided so as to be able to closely contact with an inner ceiling surface, a wall surface and a bottom surface of a building, Since the reinforcement structure can be easily installed inside the building through the modularization, the construction time and the construction cost can be reduced.

In addition, the present invention provides mobility to the reinforcing structure of the present invention through a moving unit capable of moving up and down, thereby reducing installation time and installation labor costs required for installation.

Further, since the height of the cassette type earthquake-proof structure and / or the seismic strengthening module can be made considerably lower than the ceiling surface at the time of installation, the installation convenience and / or mobility of the constructor can be improved, The upper plate can be raised so that the upper plate can be brought into close contact with the inner ceiling of the building. As a result, due to the cassette type seismic structure and / or the seismic reinforcement module, Strength can be provided.

That is, according to the present invention, both the ease of installation and the safety of seismic protection can be improved by the ascending / descending member.

Finally, in the case where the power supplied to the building is interrupted due to an earthquake and the electric power is difficult to be secured, the present invention includes emergency power supply and / or emergency power supply in the seismic reinforcement structure and / It is possible to use an auxiliary power source, use the illumination, operate the ascending / descending member, charge a mobile terminal or the like even in an earthquake evacuation space when an earthquake occurs, thereby improving the quality of the evacuation environment .

1 is a state view showing a state in which a cassette type seismic strengthening structure according to an embodiment of the present invention is installed inside a building.
2 is a perspective view showing a cassette type seismic strengthening structure according to an embodiment of the present invention.
3 is a state view showing a state in which a cassette type seismic strengthening structure according to another embodiment of the present invention is installed inside a building.
4 is a perspective view showing a state in which a cassette type seismic strengthening structure according to another embodiment of the present invention is installed inside a building.
5 is a perspective view illustrating a state in which an anti-seismic reinforcement module constituting a cassette type anti-seizure structure according to another embodiment of the present invention is engaged.
6 is a cross-sectional view illustrating a state in which an anti-seismic reinforcement module constituting a cassette type anti-seizure structure according to another embodiment of the present invention is engaged.
FIGS. 7A to 7D are views showing a state in which the cassette type seismic strengthening structure according to another embodiment of the present invention is installed inside a building in a time-series manner.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

The accompanying drawings are merely illustrative examples of the present invention in order to more clearly describe the technical idea of the present invention, and therefore, the technical idea of the present invention is not limited to the drawings.

The embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below.

It is needless to say that the shapes and sizes of the elements in the drawings may be exaggerated for clarity.

As shown in FIG. 1, which is a state of use in which the cassette type seismic retrofitting structure of the present invention is installed inside a building, the cassette type seismic retrofitting structure includes a plurality of seismic retrofitting modules 100 and a connecting part 200 .

The cassette type of the present invention refers to a method in which the main components of the present invention are configured to have an easily replaceable module type and may not be limited to the prior art.

The seismic strengthening module 100 includes a lower plate 110 disposed inside the building B and seated on a bottom surface of the building B and a lower plate 110 coupled to the lower plate 110, And a top plate 130 coupled to an upper end of the supporter 120 so as to be in close contact with a ceiling of the building B, At least one can be provided.

The connection portion 200 is provided to connect a plurality of the seismic strengthening modules 100, and more particularly, to the seismic strengthening module 100 (100) even if an external force is applied in the up and down and left and right directions and / Are not separated.

The connection unit 200 may be provided on the supporter 120 and the upper plate 130 to minimize the inconvenience of the pedestrian by the connection unit 200. [

Particularly, the seismic strengthening module 100 includes a plurality of dedicated space portions R, such as a classroom, an office, a conference room, and the like, which are formed in the building B, (C), such as a corridor connecting a plurality of dedicated space portions, to the common space portion (C).

At this time, a plurality of the seismic strengthening modules 100 are inserted and installed along the common space C in the form of a cassette.

Further, when a plurality of the seismic strengthening modules 100 are installed in the common space C,

The seismic strengthening module 100 is installed such that an open portion of the seismic strengthening module 100 is opened to allow the user to freely move.

This makes it possible to complete the installation of the seismic reinforcement structure of the present invention by simply inserting the prefabricated seismic strengthening module 100 into the common space C and installing the connecting portion 200, The time required can be greatly reduced.

The above-described seismic strengthening structure will be described in more detail with reference to Fig. 2 which is a perspective view showing the cassette type seismic reinforcement structure of the present invention.

2, the cassette type seismic strengthening structure according to the present invention includes a plurality of seismic retrofitting modules 100 and a connecting part 200 as described above, (110), a supporter (120), and an upper plate (130).

In particular, the lower plate 110 may have a flat plate shape so as to be in close contact with the bottom surface of the building.

As shown in FIG. 2, the supporter 120 may be provided to have a flat shape, but it may have a bar shape in order to secure a peripheral view and ensure a passage.

The supporter 120 is provided between the lower plate 110 and the upper plate 130 to support the upper plate in the resin direction with respect to the lower plate.

The upper plate 130 is provided so as to face the ceiling of the building (B), and it is possible to improve the supporting force of the building and to prevent the building from being damaged when the building is destroyed due to an earthquake (for example, Debris, etc.) from falling down.

Preferably, the seismic strengthening module may be composed of a composite material having a structure in which a polymer polymer resin is laminated between two metal layers.

For example, the composite material may be a composite material wherein the polymeric polymer resin comprises a polyurethane elastomer.

By using such a composite material, the present invention can minimize the occupied space occupied by the cassette-type seismic-strengthening structure in the common space portion, and can significantly reduce the weight of the cassette-type seismic- Or the efficiency of construction can be improved, and at the same time, a reinforcement similar to that in the case of using a steel sheet can be secured.

As described above, the connecting portion 200 is located in the supporter 120 and the upper plate 130 to prevent a falling accident such as a pedestrian hanging over the connecting portion, and a plurality of seismic retrofitting modules 100).

Hereinafter, with reference to FIG. 3 and FIG. 4, an installation state of the seismic strengthening structure according to another embodiment of the present invention will be described with reference to FIG. 3 showing a state in which a cassette type seismic retrofitting structure is installed inside a building .

3 and 4, the cassette type seismic retrofitting structure according to another embodiment of the present invention includes a plurality of seismic retrofitting modules 100 and a connecting part 200.

The seismic strengthening module includes a lower plate 110, a supporter 120 and an upper plate 130. The lower and upper plates 110 and 130 are installed in the seismic strengthening structure 100 according to an embodiment of the present invention, The upper and lower plates 110 and 130 and the supporter 120 are formed to have a bar shape instead of a flat plate shape.

1, the seismic strengthening module 100 may be installed in a plurality of the common space C formed at a position adjacent to the dedicated space R of the building B, And an opening portion whose rear side is open.

3 and 4, in the case where the supporter 120 is provided, not only the bar-shaped supporter 120 is provided with the open portion opened front and rear, but also the open portion .

In particular, the supporter 120 may have a bar shape to enable a smooth view of the inside of the building to be secured. In order to provide a stronger supporting force to the seismic strengthening module 100, at least one of the seismic reinforcement It is needless to say that a reinforcing frame may be further provided to extend the modules 100 in a line and to connect the pair of supporters 120 with each other.

This not only makes it easier to secure visibility in the building but also makes it easier to secure escape routes to the outside of the building.

The connecting portion 200 is installed at the same position as described above, and is functionally and effectively the same, and a description thereof will be omitted.

As a material to be applied to the seismic strengthening module 100, a composite material having a structure in which a metal body is laminated on the outer circumferential surface of a polymer including polyurethane may be used. The construction efficiency of the cassette type seismic strengthening structure of the present invention can be improved by reducing the weight.

Hereinafter, a cassette type seismic strengthening structure according to another embodiment of the present invention will be described in more detail with reference to FIG. 5 to FIG.

5 and 6, the seismic strengthening module 100 includes a moving unit 300, an ascending / descending member 400, a reinforcement member 410, an auxiliary power supply unit 500, and a handle 600. [ Can be provided.

The moving unit 300 includes a wheel 310 and a fixing member 320. The moving unit 300 is mounted in a lower receiving space formed by partially depressing the lower end of the supporter 120. [

Further, the wheel 310 is provided so as to be able to move up and down in the lower accommodation space.

The supporter 120 is mounted on the upper surface of the lower plate 110 so that the wheel 310 can be exposed through the lower plate 110. In addition, .

A fixing member 320 is provided to penetrate the supporter 120 and a supporting member (not shown) for supporting the wheel to fix the position of the wheel 310 when the wheel 310 is moved up and down.

Particularly, the fixing member 320 is provided to protrude from the inner circumferential surface of the supporter 120, thereby minimizing a space that may occur between the supporter 120 and the wall surface of the building.

Further, in order to secure the safety of the pedestrian, the movable member 310 may have a bent shape with one side bent, and the position of the movable member 310 may be fixed.

Particularly, it is possible to impart mobility to the seismic strengthening module 100 in a pre-assembled state through the moving part 300, and moreover, through the seismic reinforcement module 100 having mobility, The module 100 can be introduced into the building, which is the installation target place, and the construction efficiency can be improved.

Next, the lifting member 400 is configured to move up or down the upper plate.

To this end, one end of the lifting member 400 is coupled to the upper end of the supporter, and the other end is coupled to the bottom of the upper plate.

Particularly, an actuator (for example, a hydraulic cylinder or a pneumatic cylinder) may be used as the lifting member 400. When the actuator is used as the lifting member 400, a separate manual hydraulic pump may be provided, The actuator can be operated, as well as operating the actuator using external power.

Preferably, when the actuator is operated using external power, the actuator may be configured to receive power from an external power source normally, and receive power from an auxiliary power supply unit to be described later when the external power source is cut off or in an emergency.

Then, when the up-and-down member 400 is extended in the upward direction and the upper plate 130 is in close contact with the ceiling of the building, the up-and-down member 400 is reinforced so as to firmly maintain the extended state. A member 410 may be provided.

The reinforcing member 410 surrounds the outer circumferential surface of the lifting member 400 so that one end thereof is in close contact with the bottom surface of the upper plate 130 and the other end is in close contact with the upper end of the supporter 120, The lifting and lowering member 400 can be firmly maintained in the extended state.

Next, the auxiliary power supply unit 500 is independently provided for securing emergency power when emergency power is required, for example, by operating the ascending / descending member 400 using electric power when an earthquake occurs, The auxiliary power supply unit 500 may be provided to be coupled to the auxiliary power supply unit 500 or the supporter 120, In order to prevent damage, it is more preferable to be located on the supporter 120 side.

Particularly, the auxiliary power supply unit 500 may minimize the exposure of the auxiliary power supply unit 500 to the outside when the space portion is recessed from the inner side outer peripheral surface of the supporter 120 to the outer side, A cover member 510 for minimizing the exposure of the auxiliary power supply unit 500 may be separately formed on the inner peripheral side of the supporter 120 to prevent breakage of the auxiliary power supply unit 500 and smooth maintenance work.

It is needless to say that a waterproof pack for covering the auxiliary power supply unit 500 may be provided to prevent the auxiliary power supply unit 500 from being submerged and failing.

Next, the grip portion 600 is coupled with the supporter 120, and a plurality of supporters protrude from the supporter 120 in a direction opposite to the supporter 120, thereby assisting the walking of the pedestrian who is inconvenient.

In addition, when power is controlled in an emergency and the identification of the travel path is difficult, a light emitting member (not shown) provided on the outer circumferential surface of the handle may be separately provided to enable identification of the travel path, May be supplied through the auxiliary power supply unit 500. The auxiliary power supply unit 500 may be a power supply unit,

7A to 7D, which are perspective views of the cassette-type seismic retrofitting structure according to another embodiment of the present invention, Will be described.

First, as shown in FIG. 7A, the seismic retrofitting module 100 is introduced into the common space C of the building, and the moving part 300 positioned on the bottom of the seismic retrofit module 100 It can be moved more easily.

At this time, the approaching direction of the seismic strengthening module 100 may have a direction corresponding to the direction in which the pedestrian enters or exits.

In particular, during entry, ceiling surfaces of the common space C adjacent to the upper surface of the seismic strengthening module 100 can be spaced apart from each other, The bottom surface of the space portion C may also be spaced apart from each other.

In addition, a separation distance between the side outer surface of the seismic strengthening module 100 adjacent to the wall surface of the common space C is minimized.

7B, a moving part (not shown) provided in the seismic strengthening module 100 is raised at a specific point in the common space C so that the seismic strengthening module 100 is moved to a specific point As shown in Fig.

At this time, the moving part (not shown) is elevated to increase the separation distance between the upper surface of the seismic strengthening module 100 and the ceiling of the common space part C. To reduce the separation distance, The lifting member 400 provided in the seismic strengthening module 100 is raised.

By reducing the distance between the seismic strengthening module 100 and the common space C through the lifting and lowering member 400, the stability of support to the building can be further improved.

7C, in order to maintain the stability of the support of the seismic strengthening module 100 when the up-and-down member 400 is maximally raised, the outer peripheral surface of the up-and-down member 400 is surrounded A reinforcing member 410 may be provided.

In particular, the reinforcing member 410 may be made of a material having a strong endurance against a vertical load, and may have a cylindrical or polygonal shape.

7D, when the seismic retrofitting module 100 enters the common space C and is in the same direction as the direction in which the seismic strengthening module 100 installed at a specific position enters, .

Particularly, when the seismic retrofitting module 100 enters the second stage, the seismic retrofitting module 100 is advanced until it is in close contact with the installed seismic retrofit module 100.

Thereafter, the seismic retrofit module 100 is installed in the same process as the first seismic retrofit module 100, and the above-described process is repeated to easily install the seismic resistant structure of the present invention inside the building.

Thereafter, the two adjacent seismic reinforcement modules 100 are connected to each other by using the connection part 200.

As described above, according to the present invention, it is possible to firmly perform seismic strengthening of a building through an upper plate, a supporter and a lower plate provided so as to be in close contact with an inner ceiling surface, a wall surface and a bottom surface of a building, It is an object of the present invention to provide a cassette type seismic retrofitting structure capable of reducing construction time and construction cost since it can be easily installed inside a building through a simple structure, The true scope of the present invention should be determined by the claims.

100: Seismic reinforcing module
110: Lower plate
120: Supporter
130: upper plate
200:
300:
310: wheel
320: Fixing member
400: ascending / descending member
410: reinforcing member
500: auxiliary power supply
510: cover member
600: Handle portion

Claims (8)

An upper plate disposed to face the ceiling of the building and preventing the debris from peeling off from the ceiling when the earthquake occurs;
A lower plate resting on a bottom surface of the building;
A supporter that supports the upper plate in a vertical direction with respect to the lower plate, has a bar shape or a flat plate shape, and has a receiving space formed therein;
And a support provided at a lower portion of the lower plate and selectively installed in a lower space of the supporter or installed at a lower portion of the supporter so as to be at least partially exposed to a lower portion of the lower plate and a support for supporting the wheel ;
A fixing member inserted into the inner peripheral surface of the supporter and configured to penetrate the supporter in order to minimize the space that may occur between the supporter and the wall of the building and fix the vertical position of the wheel provided in the moving unit;
A plurality of seismic strengthening members made of a composite material having a structure in which a part of the divided upper plate, a part of the divided lower plate, and a supporter are combined with each other in the longitudinal direction and a polymer polymer resin is laminated between the two metal layers module; And a connection part for detachably connecting the plurality of seismic reinforcement modules to each other so that the plurality of seismic reinforcement modules are not separated from each other even if a 3-axis external force due to an earthquake is applied,
Wherein:
And is provided so as to have a bent shape at one side thereof and to be arranged at the lower end of the supporter and has a length shorter than the width of the width held by the supporter,
Wherein the structure is detachably installed in an inner space of the building to reinforce the earthquake-proof strength of the building. delete The method according to claim 1,
The cassette type earthquake-resistant reinforcement structure,
A plurality of dedicated space units included in the building and a common space unit formed at a position adjacent to the plurality of dedicated space units and connecting the plurality of dedicated space units, Cassette type seismic reinforcing structure.
delete delete delete The method according to claim 1,
The cassette type earthquake-resistant reinforcement structure,
Further comprising an elevating and lowering member provided to adjust the height of the upper plate while one end is coupled to the upper end of the supporter and the other end is coupled to the lower surface of the upper plate.
The method according to claim 1,
The cassette type earthquake-resistant reinforcement structure,
Further comprising an auxiliary power supply unit provided for securing power in an emergency and supplying auxiliary power to the earthquake-proof reinforcement structure when an external power supply to the building is cut off.

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