KR101957822B1 - Wall structure of apartment with improved aseismicity - Google Patents

Abstract

One embodiment of the present invention relates to an apartment wall structure with seismic property, which uses a wire to realize seismic performance. According to one embodiment of the present invention, the apartment wall structure with seismic property comprises: a wall forming a rectangular opening and constructed in an apartment structure; an elastic spring installed in the opening, connected to a wall, and elastically deformed by external force; a connection module connected to the elastic spring and a wire; and the wire.

Description

The wall structure of apartment with improved aseismicity

The present invention relates to an apartment wall structure having an earthquake-proof performance, and more particularly, to an apartment wall structure having an earthquake-proof performance capable of easily adjusting the degree of tension of a wire.

It is usual that the earthquake-resistant design of buildings is designed to be able to cope with disasters such as earthquakes and strong winds, and external forces transmitted from buildings to other buildings.

The structure to be constructed by this general seismic design is structured to reinforce the joint between the column structure, the beam structure and the column and the beam, and the slab which forms the space floor or ceiling of the building is supported on the top of the beam structure .

Here, in many cases, the beam structure and the slab are integrally constructed by pouring concrete. In such a construction, the seismic performance is poor, and in the case of a high-rise building, it is difficult to ensure structural safety, .

On the other hand, there is a slab construction method having a structure in which a slab is installed on the upper part of a beam structure and another type of structure is interposed between the beam structure and the slab, .

However, in the conventional method of installing the earthquake-proof slab, since the slab is constructed on the beam structure, even when the earthquake-proof apparatus having a buffer function is interposed between the beam structure and the slab, Vibration and impact are transmitted to the slab through the slab, so that the swinging phenomenon of the slab can not be prevented.

In addition, since the slab is installed on the upper part of the beam structure, if the vibration isolation device having the buffering function is provided between the beam structure and the slab, there is a problem that the thickness of the building is lowered.

On the other hand, Korean Patent Registration No. 10-1928747 (Registered on Dec. 21, 2081) discloses an apartment construction method having an earthquake-proof structure.

Here, although wires are used to maximize the earthquake-proof function, there is a problem that the workability is poor because each wire turnbuckle 130 must be operated to fix the wire.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apartment wall structure that maximizes an earthquake-proof function and has excellent earthquake-resistant performance.

It is to be understood that the present invention is not limited to the above-described embodiments and that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the following claims .

According to an embodiment of the present invention, an apartment wall structure having an earthquake-proof performance realizes earthquake-proof performance by using a wire, the wall being formed in a square structure and installed in an apartment structure; An elastic spring installed in the opening, connected to the wall, and elastically deformed by an external force; A connection module connected to the elastic spring and connected to the wire; And the wire is formed with a screw space into which the elastic spring is inserted to be screwed with the elastic spring, and the elastic spring is rotated by an external force on the screw space, Wherein the connection module includes a connection portion connected to the elastic spring, a support portion supporting the wire, and a body portion connected to the connection portion and supporting the support portion, wherein the connection portion is inserted into the body portion, And the supporting portion is screwed to the supporting base, and the first receiving portion, which is formed in a receiving space for receiving the wire, , And a first restricting member which restrains the first accommodating portion from being moved in one direction on the support frame A second receiving portion that is threadably engaged with the support and forms a receiving space for receiving the wire, a second receiving portion that is threadably engaged with the supporting portion, A second restraining part restricting the second supporting part from being moved in one direction on the support, and a second resting part restricting the second supporting part from moving in the other direction on the supporting part, , The first 1-2 restricting portion, the second 2-1 restricting portion, and the second 2 restricting portion are screwed to the support, and the main body portion includes a cover portion for accommodating the support portion and a protrusion accommodated in the support portion Wherein the support base defines a receiving hole for receiving the projection, both ends of the support being in contact with the body, A second elastic spring connected to the left side of the wall forming the opening, a third elastic spring connected to the lower side of the wall forming the opening, and a second elastic spring connected to the wall forming the opening, The connection module includes a first connection module connected to the first elastic spring, a second connection module connected to the second elastic spring, and a second connection module connected to the third elastic spring, And a fourth connection module connected to the fourth resilient spring, wherein the wires sequentially and continuously extend from the first connection module and are connected to the second connection module, and the second Extending from the connection module and connected to the third connection module, extending from the third connection module and connected to the fourth connection module, The wire is connected to the first connection module and connected to the third connection module from the first connection module, and the wire is inserted into the main body part, The degree of tensile can be controlled by the degree.

According to the structure of the apartment wall having the earthquake-resistant performance according to the embodiment of the present invention, the earthquake-resistant function is maximized and the workability is excellent.

The effects of the present invention are not limited to the above-mentioned effects, and the effects not mentioned can be clearly understood by those skilled in the art from the present specification and the accompanying drawings.

1 is a schematic front view of an apartment wall structure having seismic performance according to an embodiment of the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an elastic member,
3 is a schematic cross-sectional view illustrating a connection module of an apartment wall structure having an earthquake-proof performance according to an embodiment of the present invention.
4 is a schematic perspective view illustrating a connection module of an apartment wall structure having an earthquake-proof performance according to an embodiment of the present invention.
5 is a schematic exploded perspective view for explaining a connection module of an apartment wall structure having seismic performance according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

According to an embodiment of the present invention, an apartment wall structure having an earthquake-proof performance realizes earthquake-proof performance by using a wire, the wall being formed in a square structure and installed in an apartment structure; An elastic spring installed in the opening, connected to the wall, and elastically deformed by an external force; A connection module connected to the elastic spring and connected to the wire; And the wire is formed with a screw space into which the elastic spring is inserted to be screwed with the elastic spring, and the elastic spring is rotated by an external force on the screw space, Wherein the connection module includes a connection portion connected to the elastic spring, a support portion supporting the wire, and a body portion connected to the connection portion and supporting the support portion, wherein the connection portion is inserted into the body portion, And the supporting portion is screwed to the supporting base, and the first receiving portion, which is formed in a receiving space for receiving the wire, , And a first restricting member which restrains the first accommodating portion from being moved in one direction on the support frame A second receiving portion that is threadably engaged with the support and forms a receiving space for receiving the wire, a second receiving portion that is threadably engaged with the supporting portion, A second restraining part restricting the second supporting part from being moved in one direction on the support, and a second resting part restricting the second supporting part from moving in the other direction on the supporting part, , The first 1-2 restricting portion, the second 2-1 restricting portion, and the second 2 restricting portion are screwed to the support, and the main body portion includes a cover portion for accommodating the support portion and a protrusion accommodated in the support portion Wherein the support base defines a receiving hole for receiving the projection, both ends of the support being in contact with the body, A second elastic spring connected to the left side of the wall forming the opening, a third elastic spring connected to the lower side of the wall forming the opening, and a second elastic spring connected to the wall forming the opening, The connection module includes a first connection module connected to the first elastic spring, a second connection module connected to the second elastic spring, and a second connection module connected to the third elastic spring, And a fourth connection module connected to the fourth resilient spring, wherein the wires sequentially and continuously extend from the first connection module and are connected to the second connection module, and the second Extending from the connection module and connected to the third connection module, extending from the third connection module and connected to the fourth connection module, The wire is connected to the first connection module and connected to the third connection module from the first connection module, and the wire is inserted into the main body part, The degree of tensile can be controlled by the degree.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

FIG. 1 is a schematic front view of an apartment wall structure having an earthquake-proof performance according to an embodiment of the present invention. FIG. 2 is a perspective view illustrating a connection relation of elastic springs of an apartment wall structure having seismic performance according to an embodiment of the present invention Fig.

FIG. 3 is a schematic cross-sectional view illustrating a connection module of an apartment wall structure having an earthquake-proof performance according to an embodiment of the present invention. FIG. 4 is a cross- FIG. 5 is a schematic exploded perspective view illustrating a connection module of an apartment wall structure having an earthquake-proof performance according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

1 to 5, an apartment wall structure 10 having an earthquake-proof performance according to an embodiment of the present invention may be a wall structure that maximizes an earthquake-proof performance of an apartment using a wire W. FIG.

For example, the apartment wall structure 10 having the earthquake-proof performance may be a component constituting the wall 100 of the apartment.

In this case, for example, the apartment wall structure 10 having the earthquake-proof performance may include the wall 100 formed in the apartment structure and forming a rectangular opening S1.

In one example, the wall 100 may be a reinforced concrete structure.

In one example, the wall 100 may be laid horizontally and / or vertically (not shown), and concrete may be formed by the form surrounding the horizontal and / or vertical bars.

For example, the wall 100 may have a rectangular opening S1 in a central portion thereof.

Here, for example, the apartment wall structure 10 having the earthquake-proof performance may further include an elastic spring connected to the wall body 100 and elastically deformed by an external force.

For example, the elastic spring may have a resilient structure that is stretched or contracted by an external force.

In one example, the resilient spring may be connected to the wall 100 defining the opening S1 on the opening S1.

Here, for example, the apartment wall structure 10 having the earthquake-proof performance may further include a connection module connected to the elastic spring and to which the wire W is connected.

The elastic spring and the connection module may be configured to mediate the connection so that the wire W to be described below is connected to the wall 100.

That is, an earthquake load due to the occurrence of an earthquake can be transmitted from the wall 100 to the wire W through the elastic spring and the connection module.

Hereinafter, with reference to Figs. 1 to 5, the apartment wall structure 10 having the earthquake-proof performance will be described in more detail.

For example, the wall 100 may form a threaded space S2 into which the elastic spring is inserted to be screwed with the elastic spring.

For example, the threaded space S2 may be formed on four sides (upper side, left side, lower side, and right side) of the rectangular opening S1.

As a result, the resilient spring can be rotated by the external force on the threaded space S2 and screwed into the wall 100.

Here, for example, the elastic spring may be rotated by an external force on the threaded space S2 so that the degree of insertion of the resilient spring on the threaded space S2 may be adjusted.

For example, one end of the elastic spring may be inserted into the screw space S2, and the other end of the elastic spring may protrude from the screw space S2 to the opening S1, .

Here, the connection module includes a connection portion 313 connected to the elastic spring, a support portion 3000 supporting the wire W, and a main body 300 connected to the connection portion 313, (311).

For example, the connection portion 313 may form a through hole H into which the elastic spring is inserted.

For example, the connecting portion 313 may be connected to the elastic spring by inserting the other end of the elastic spring exposed through the opening S1 on the through hole H.

When the connection portion 313 and the elastic spring are mutually connected, they can be fixed to each other by welding or the like.

For example, the connection portion 313 may be inserted into the main body portion 311 and may be screwed to the main body portion 311.

As a result, the degree of insertion of the connection portion 313 can be adjusted by being rotated on the main body portion 311 by an external force and inserted into the main body portion 311.

For example, the main body 311 may be configured to form a space in which the connection portion 313 can be screwed and a space in which the support portion 3000 can be seated.

For example, the support part 3000 includes a support base 3100 supported by the main body part 311, a first receiving part 310b which is screwed with the support base 3100 and forms a receiving space for receiving the wire W, A first restricting portion 3211 for restricting the first accommodating portion 3210 from being moved in one direction on the supporter 3100; A second accommodating portion 3310 screwed with the supporter 3100 and defining a receiving space for accommodating the wire W, A second restricting portion 3311 for restricting the second accommodating portion 3310 from being moved in one direction on the supporter 3100 and a second restricting portion 3311 for restricting the second accommodating portion 3310 from moving in the other direction The second limiting part 3313 may limit the first limiting part 3211, the second limiting part 3211, 3213, the second-first limiting part 3311 and the second-second limiting portion 3313 may be threaded and the support 3100.

For example, the supporter 3100 may have a circular bar shape with threaded threads formed on its outer surface.

For example, the first receiving portion 3210 may have a nut shape that is screwed to the support base 3100.

The first receiving portion 3210 may form a receiving space in which the wire W is seated.

For example, the receiving space may be formed as a circular groove embedded from the outer surface of the first accommodating portion 3210.

For example, the 1-1 restricting portion 3211 and the 1-2 restricting portion 3213 may be in the form of a nut screwed to the support base 3100.

The first restricting portion 3211 is disposed in the left direction of the first accommodating portion 3210 to prevent the first accommodating portion 3210 from being rotated in the left direction due to external force have.

The 1-2 restricting portion 3213 is disposed in the right direction of the first accommodating portion 3210 to prevent the first accommodating portion 3210 from being rotated in the right direction by external force have.

For example, the second receiving portion 3310 may be in the form of a nut screwed to the support base 3100.

The second receiving portion 3310 may form a receiving space in which the wire W is seated.

For example, the receiving space may be formed as a circular groove embedded from the outer surface of the second accommodating portion 3310.

For example, the second-1 restricting portion 3311 and the second-second restricting portion 3313 may be in the form of a nut screwed to the support base 3100.

The second-first restricting portion 3311 is disposed in the left direction of the second accommodating portion 3310 to prevent the second accommodating portion 3310 from being rotated in the left direction due to external force have.

The second-second restricting portion 3313 is disposed in the right direction of the second accommodating portion 3310 to prevent the second accommodating portion 3310 from being rotated in the rightward direction by external force have.

The first receiving portion 3210, the second receiving portion 3310, the 1-1 restricting portion 3211, the 1-2 restricting portion 3213, the 2-1 restricting portion 3311, And the second -2 restricting portion 3313 may be rotated by an external force and moved to the left and right on the support base 3100. [

For example, the main body 311 may include a cover R for receiving the support 3100 and a protrusion 311a for receiving the support 3100.

For example, the cover portion R may be formed into a rounded groove by being inserted from the outer surface of the body portion 311.

For example, the protrusion 311a may be protruded from the cover R.

Here, for example, the support base 3100 may form a receiving hole S3 to receive the protrusion 311a.

For example, the receiving hole S3 may be formed in a shape corresponding to the shape of the protrusion 311a.

For example, when the support 3100 is seated on the cover R, the protrusion 311a can be inserted into the receiving hole S3, and both ends of the support 3100 can be inserted into the receiving hole S3, And can be brought into contact with the main body portion 311.

As a result, when the wire W is pulled, the main body 311 can share the support base 3100 without being opened, and can resist the tensile load of the wire W.

For example, both ends of the support 3100 may be welded to the portion of the body 311 that is in contact.

Here, the elastic spring may include a first elastic spring 210 connected to the upper side of the wall 100 forming the opening S1, and a second elastic spring 210 connected to the left side of the wall 100 forming the opening S1. A third resilient spring 230 connected to the lower side of the wall 100 forming the opening S1 and the wall 100 forming the opening S1, And a fourth resilient spring 240 connected to the right side of the second elastic spring 240.

The first elastic spring 210, the second elastic spring 220, the third elastic spring 230 and the fourth elastic spring 240 may have the same shape, and the upper side And the screw space S2 on the left, lower, and right sides.

That is, a plurality of the elastic springs may be connected to the wall 100 forming the square opening S1.

Here, the connection module may include a first connection module 310 connected to the first elastic spring 210, a second connection module 320 connected to the second elastic spring 220, A third connection module 330 connected to the elastic spring 230 and a fourth connection module 340 connected to the fourth elastic spring 240.

That is, the connection module may be connected to a plurality of elastic springs.

The first connection module 310, the second connection module 320, the third connection module 330, and the fourth connection module 340 may have the same shape.

Here, the wire W may be sequentially and continuously extended from the first connection module 310 to the second connection module 320 and extend from the second connection module 320 And a second connection module 330 connected to the third connection module 330 and extending from the third connection module 330 and connected to the fourth connection module 340, Module 310 and may be connected to the third connection module 330 from the first connection module 310.

To be more specific, the wire W may be connected to the first receiving portion 3210 of the first connection module 310.

The wire W may be fixed on the first receiving portion 3210 of the first connection module 310 by a knot and / or a fixing member.

The wire W connected to the first connection module 310 is extended from the first connection module 310 and connected to the first reception part 3210 of the second connection module 320 and / And can be supported on the second accommodating portion 3310.

The wire W connected to the second connection module 320 extends from the second connection module 320 and is supported on the first accommodation portion 3210 of the third connection module 330 .

The wire W connected to the third connection module 330 may extend from the third connection module 330 and may extend from the first accommodation portion 3210 of the fourth connection module 340 and / And can be supported on the second accommodating portion 3310.

The wire W connected to the fourth connection module 340 extends from the fourth connection module 340 and is supported on the second accommodation portion 3310 of the first connection module 310 .

The wire W connected to the first connection module 310 may extend from the first connection module 310 and may be connected to the second connection part 3310 of the third connection module 330, And / or a fixing member.

The first connection module 310, the second connection module 320, the third connection module 330, the fourth connection module 340, and the fourth connection module 340 are sequentially connected to one another, And may be connected to the first connection module 310 and the third connection module 330 again.

As a result, it is convenient to apply tension to one strand of the wire (W).

The wire W is wound around the wire W in such a manner that the degree of insertion of the elastic spring on the threaded space S2 and the degree of insertion of the connection portion 313 into the body portion 311 The tensile strength can be controlled by the degree of the tensile strength.

After the worker applies a predetermined tension to the wire W, the tension spring can be welded and fixed to the horizontal reinforcement or the vertical reinforcement of the wall 100.

The horizontal reinforcement or the vertical reinforcement of the wall 100 may be protruded on the threaded space S2 and the elastic spring disposed on the threaded space may be disposed on the wall 100, It can be fixed to the horizontal reinforcement or the vertical reinforcement by welding or the like.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes or modifications may fall within the scope of the appended claims.

100: Wall
S1: opening
W: Wire

Claims (1)

In an apartment wall structure having a seismic performance by a wire,
A wall forming a rectangular opening and including a vertical reinforcing bar and a horizontal reinforcing bar and being constructed in an apartment structure;
An elastic spring installed in the opening, connected to the wall, and elastically deformed by an external force;
A connection module connected to the elastic spring and connected to the wire; And
The wire comprising:
Wherein the wall comprises:
A screw space into which the elastic spring is inserted to be screwed with the elastic spring is formed,
The elastic spring
The degree of insertion on the threaded space is adjusted by being rotated by an external force on the threaded space,
The connection module includes:
A connecting portion connected to the elastic spring,
A supporting portion for supporting the wire;
And a main body portion connected to the connection portion and supporting the support portion,
The connecting portion
The insertion portion inserted into the body portion and being screwed to the body portion,
The support portion
A support table supported by the main body,
A first receiving portion that is threaded with the support and forms a receiving space for receiving the wire,
A first restricting portion for restricting the first accommodating portion from being moved in one direction on the support frame,
A second restricting portion for restricting the first accommodating portion from being moved in the other direction on the supporter,
A second receiving portion that is threaded with the support and forms a receiving space for receiving the wire,
A second-1 restricting portion for restricting the second accommodating portion from being moved in one direction on the support frame and
And a second -2 restricting portion for restricting the second accommodating portion from being moved in the other direction on the support base,
The 1-1 restricting portion, the 1-2 restricting portion, the 2-1 restricting portion, and the 2-2 restricting portion are screwed to the support,
Wherein,
A cover portion accommodating the support member and a protrusion accommodated in the support member,
[0028]
Forming a receiving hole to receive the projection,
Both end portions of the support member
And a contact portion,
The elastic spring
A first elastic spring connected to an upper side of the wall forming the opening,
A second elastic spring connected to the left side of the wall forming the opening,
A third elastic spring connected to a lower side of the wall forming the opening, and
And a fourth elastic spring connected to the right side of the wall forming the opening,
The connection module includes:
A first connection module connected to the first elastic spring,
A second connection module connected to the second elastic spring,
A third connection module connected to the third elastic spring,
And a fourth connection module connected to the fourth elastic spring,
The wire
Sequentially and continuously,
A second connection module extending from the first connection module and being connected to the second connection module,
A second connection module extending from the second connection module and connected to the third connection module,
A third connection module extending from the third connection module and connected to the fourth connection module,
Extending from the fourth connection module and connected to the first connection module,
A first connection module connected to the third connection module,
The wire
The degree of tension is controlled by the degree of insertion of the elastic spring in the screw space and the degree of insertion of the connection portion into the body portion,
The elastic spring
A bolt secured to the horizontal reinforcement or vertical reinforcement of the wall disposed on the threaded space,
Apartment wall structure with seismic performance.

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