KR101927711B1 - Earthquake proof reinforcing method for opening parts of apartment house - Google Patents

Abstract

The present invention relates to an earthquake-proof reinforcing method for opening parts of an apartment house, which can reinforce earthquake-proof performance by installing an earthquake-proof reinforcing device such as a damper or the like in opening parts having a rectangular structure in an apartment house, and comprises the following steps of: (A) providing four H-shaped steel structures; (B) installing a pulley; (C) installing a vertical reinforcing material; (D) installing a reinforcing frame; (E) increasing an internal force with respect to an external force; and (F) inserting and arranging an elastic pad.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an earthquake-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anti-seismic reinforcement method for an opening in a multi-family house, and more particularly, to an anti-seismic reinforcement method for an opening in a multi- .

In general, architectural structures including apartments, villas, and multi-generations are provided with openings such as windows and doors for the purpose of making the living more pleasant and convenient as well as providing visibility, and indispensably, Openings are also formed in various spaces.

Usually, an open space such as a window or a door is secured to an open space of a predetermined size or more, and then a window or a chassis is inserted into the open space, and the other openings are kept open Construction is done in one.

However, the opening forming the open space in such a building structure is a portion where stress concentration is intensified as compared with other portions. Especially, when vibration occurs due to an earthquake or typhoon, tensile cracks or the like are generated first Therefore, there is a desperate need for improvement and reinforcement.

In addition, if the seismic design is not reflected, the seismic performance will not be sufficient, and structural damage caused by the opening will cause serious damage in the event of an earthquake.

In order to minimize personal injury and material damage from such earthquakes, various types of seismic or anti-vibration devices are installed in openings, structural members such as columns and beams, and various types of building structures such as apartments, villas, It is used as an earthquake reinforcement method during construction.

Korean Patent Registration No. 10-1573060 Korean Patent Registration No. 10-1348577

An object of the present invention is to provide an earthquake-proof reinforcement method for an opening in a multi-unit house, which can improve the seismic performance on the side of an opening of a window or a door installed in the multi-unit house.

The present invention relates to an anti-seismic reinforcement method for an opening in a multi-unit house, which can prevent structural damage caused by an opening side through improvement of seismic performance and prevent an architectural structure from being easily damaged by an earthquake or typhoon The purpose is to provide.

The present invention relates to a structure for reinforcing and supporting an H-shaped steel in an apartment house, which is capable of absorbing and extinguishing vibration energy through elastic deformation corresponding to an external force such as an earthquake by grafting a pulley, a wire rope and a turnbuckle, And an object of the present invention is to provide an earthquake-proof reinforcement method for an opening.

According to another aspect of the present invention, there is provided an anti-seismic reinforcement method for an opening in a multi-family house, the method comprising: providing an opening in a multi-family house to reinforce the seismic resistance by providing an anti- The method comprising: (A) providing four steel structures of H-shaped steel for reinforcing the opening side four sides; (B) installing rotatably a pulley at both ends of each of the steel structures; (C) installing vertical stiffeners by vertically arranging two steel structures of the H-shaped steels provided with the pulleys on the left and right sides of the inner side of the opening, respectively; (D) The horizontal stiffener is installed by horizontally arranging the remaining two steel structures of the H-shaped steels provided with the pulleys in the upper and lower directions of the inner surface of the openings. The horizontal stiffener is connected to the vertical stiffener side, Providing a reinforcement frame having a rectangular structure corresponding to the shape of the opening by fixing a connector to a neighboring opening wall; (E) a wire rope is wound around a pulley installed in each of the vertical reinforcement and the horizontal reinforcement to enhance the coupling force between the vertical reinforcement and the horizontal reinforcement, and elastic deformation corresponding to the external force acting through the elastic tension of the wire rope is provided, So as to increase the resistance to the load; (F) inserting elastic pads between the vertical stiffener and the inner wall of the opening, and interposing an elastic pad between the horizontal stiffener and the inner wall of the opening, wherein in the step (E) A turnbuckle is disposed at a midway point between the pulley and the pulley installed at both ends of each of the vertical stiffener and the horizontal stiffener and the wire rope is wound so as to pass the adjacent pulleys to connect the both ends of the wire rope to the intermediate point And the tightening force and the tension are maintained between the wire ropes by adjusting the connection and tension to the arranged turnbuckles and the vertical stiffener and the horizontal stiffener are rigidly supported while being elastically deformed corresponding to the external force .

Here, in the step (B), a pulley is provided at both side ends of each of the steel structures as the H-shaped steel, and a pair of structures are provided at each position on the recessed portion formed in the forward and backward direction by the intermediate plate member; The step (E) comprises winding a first wire rope on the sheave located on the front side of the intermediate plate member, connecting the second wire rope to the sheave located on the rear side of the intermediate plate member, It is possible to increase the resistance to an external force through the elastic support of the double structure by providing two wire ropes in front of and behind the member.

Here, the connector may include a tunnel connecting tube having an elbow-like structure, which is a steel structure capable of receiving the adjacent vertical stiffeners and the horizontal stiffeners to the outside and accommodating the ends thereof inwardly; And a fastening plate extending from both ends of the tunnel connecting tube body. In the step (D), the tunnel connecting tube bodies of the connecting fittings are inserted into the outer side of the neighboring vertical stiffeners and the horizontal stiffeners, And an anchor bolt is fastened and fixed in a state in which the fastening plate of the fastening hole is in tight contact with the wall of the opening wall by fastening and fixing the vertical stiffener to one side of the tunnel connecting tube through the nut fastening and fastening and fixing the horizontal stiffener to the other side, The reinforcing frame having a rectangular shape corresponding to the shape of the reinforcing frame can be firmly installed.

(G) installing a brace in a vertical or horizontal structure to support a reinforcing frame having a rectangular structure provided corresponding to the shape of the opening, wherein the brace has a rod- ; Extending portions formed on both end surfaces of the supporting body; A spherical body extending from each of the extended portions; A support housing for preventing rotation of the sphere while preventing the sphere from being separated from the sphere; An elastic body inserted into each of the support housings to elastically support the spheres contained in the support housings; And a fastening and fastening plate extended from each of the support housings and fastened to the reinforcing frame through fastening of the fastening bolts.

And (H) fixing and mounting the cover member so that the braces are installed vertically or horizontally, respectively, and then have a protection and a flatness with respect to the inner surface of the cover member, Shaped structure of an open type so that the vertical stiffener and the horizontal stiffener can be fitted and fixed to the outer side while covering the stiffener.

According to the present invention, a vertical stiffener and a horizontal stiffener are basically provided, and by using a pulley and a wire rope, an external force due to an earthquake or the like is supported on the opening side by a structure for supporting a reinforcing frame by H- The vibration energy can be absorbed by the elastic deformation corresponding to the vibration energy at the time of mooring and can be eliminated and the installation state of the vertical stiffener and the horizontal stiffener can be maintained by the tension of the wire rope. It is possible to greatly improve the seismic performance on the opening side and to prevent the structural damage caused by the opening portion when an external force such as an earthquake or a typhoon occurs, and to prevent the apartment from being easily damaged.

In addition to the seismic reinforcement design utilizing a pulley and a wire rope, the present invention can arrange a pair of stiffeners and have an elastic deformation by an elastic deformation structure, thereby more firmly supporting the vertical stiffener and the horizontal stiffener supporting the opening, It is possible to provide a useful effect of having a further increased strength on the opening side through an earthquake-proof action that is not easily broken even when an external force such as a typhoon occurs.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flowchart illustrating an earthquake-proof reinforcement method for an opening in a dwelling unit according to an embodiment of the present invention.
FIG. 2 is a view illustrating a seismic strengthening method for an opening in a multi-unit house according to an embodiment of the present invention.
3 is an exemplary view showing a structure including a connector in an anti-seismic reinforcement method for an opening in a multi-unit house according to an embodiment of the present invention.
4 is a view illustrating an example of a structure including an elastic pad in an anti-seismic reinforcement method for an opening in a multi-unit house according to an embodiment of the present invention.
5 is a schematic view illustrating a structure including a brace in an anti-seismic reinforcement method for an opening in a apartment building according to an embodiment of the present invention.
6 is an exemplary view showing a detailed configuration of a brace in an anti-seismic reinforcement method for an opening in a apartment building according to an embodiment of the present invention.
FIG. 7 is a schematic view illustrating a structure including a cover material in an anti-seismic reinforcement method for an opening in a multi-unit house according to an embodiment of the present invention.
FIG. 8 is a view illustrating a cover member in an anti-seismic reinforcement method for an opening in a multi-unit house according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

1 to 8, the method for reinforcing an earthquake-proof reinforcement for an opening in a dwelling according to an embodiment of the present invention includes the steps of installing a steel structure (S10), installing a pulley (S20), installing a vertical reinforcement (S30) A horizontal stiffener mounting step S40, a wire rope connecting step S50, an elastic pad placing step S60, a strut mounting step S70, and a cover reinstalling step S80.

Typically, the opening 2 in the apartment is formed as an open space in the interior of the wall 1 for windows, doors, or other purposes, and is mainly formed in a rectangular shape. Hereinafter, .

The steel structure supporting step S10 includes four steel structures for reinforcing four side faces of the opening 2 formed in a rectangular shape. The steel structure is easily obtained and has durability due to rigidity It is preferable to use H-shaped steel.

Here, the H-shaped steel used as the steel structure is defined as an intermediate plate member (C) and a plate-like member (F) disposed on both end faces of the intermediate plate member.

The hoist installation step S20 is a step of installing the sheaves 101 so as to be rotatable by being positioned at both side ends of each of the four steel structures provided as the H-shaped steel.

At this time, the pulley 101 can be installed on either side of the recessed portion formed and divided by the intermediate plate member C in the forward and backward directions. However, the pulleys 101 are arranged on both sides of the front and rear sides to provide a pair of structures, It may be more preferable for improvement.

The vertical stiffener installing step S30 may include installing vertical stiffeners 110 by horizontally arranging two steel structures of the H-shaped beams provided with the pulleys 101 on both sides of the inner side of the opening 2, to be.

In the horizontal stiffener mounting step S40, the horizontal stiffener 120 is installed by horizontally arranging the remaining two steel structures of the H-shaped beams provided with the pulley 101 in the vertical direction of the inner surface of the opening 2, The connecting member 130 is connected to the side of the vertical stiffener 110 and is fixed to the opening wall member 1 adjacent to the anchor bolt to reinforce the rectangular structure corresponding to the shape of the opening member 2 It is the stage to install the frame.

At this time, the connector 130 includes a vertical stiffener 110 and a horizontal stiffener 120, which are inserted into the outer side of the adjacent stiffener 110 and are capable of receiving the ends of the stiffener 120 inward, And a fastening plate 132 extending from side surfaces of both ends of the tunnel connecting tube 131.

That is, the elbow type tunnel connection pipe body 131 of the connector 130 is inserted into the outer side of the neighboring vertical stiffener 110 and the horizontal stiffener 120, and the bolt and nut are fastened to the tunnel connection pipe body 131 And the horizontal stiffener 120 is fastened and fixed to the other side by fastening and fixing the vertical stiffener 110 to one side of the opening 130 and the fastening plate 132 of the connection 130 is in close contact with the opening wall 1 The anchor bolts are fastened and fixed so that a reinforcing frame having a rectangular structure corresponding to the shape of the opening portion is firmly installed.

The wire rope connection step S50 may include connecting the wire rope 102 to the vertical stiffener 110 forming the reinforcing frame and the sheave 101 installed on the horizontal stiffener 120 to connect the wire rope 102 to the vertical stiffener 110, The reinforcing force between the horizontal stiffeners 120 is enhanced and elastic deformation corresponding to an external force such as an earthquake acting on the opening 2 through the wall 1 is provided through the elastic tension of the wire rope 102, Thereby increasing the strength.

At this time, when the wire rope 102 is wound around the pulley 101, the turnbuckle 103 is disposed at a midway point between the pulley installed at both ends of the vertical stiffener 110 and the horizontal stiffener 120 The wire rope 102 is wound around the pulleys 101 adjacent to each other so as to connect the both ends of the wire rope 102 to the turnbuckle 103 disposed at the intermediate point, It is preferable that the vertical stiffener 110 and the horizontal stiffener 120 are rigidly mounted to be elastically deformed in response to an external force such as an earthquake.

In this case, the pulley 101 is disposed on both sides of the front and rear sides of the recessed grooves formed and divided by the intermediate plate-like member C of the vertical stiffener 110 or the vertical stiffener 120, The first wire rope is wound around and connected to the side of the sheave located on the front side of the intermediate plate member C of the vertical stiffener 110 or the vertical stiffener 120, The second wire rope is wound around the pulley located at the rear of the intermediate plate member C, and the wire ropes 102 are arranged in two rows in front of and behind the intermediate plate member C.

The reinforcing frame formed by connecting the vertical stiffener 110 and the horizontal stiffener 120 through the two rows of the wire ropes 102 provides an elastic supporting structure of a double structure in front and rear, It is possible to provide an advantage that the resistance against an external force such as an earthquake can be further increased through the tension of the rope 102.

In the elastic pad placing step S60, the vertical stiffener 110 and the horizontal stiffener 120 are connected and assembled using the connector 130, thereby forming the elastic stiffener 110 between the vertical stiffener 110 and the inner wall of the opening, 120 and the inner sidewall of the opening, respectively, by inserting the elastic pads 140 into the interstices S. As shown in FIG.

In this case, it is most preferable that the elastic pad 140 is made of a rubber material so as to absorb and extinguish an external force such as an earthquake and exhibit a buffering function. The rubber pad has a rubber hardness of 80 to 100 kgf / To 90 MPa.

The brace installation step S70 may include a vertical stiffener 110 having a rectangular shape and a brace 150 to support a reinforcing frame by the horizontal stiffener 120 installed corresponding to the shape of the opening 2, So that the disadvantage that the opening 2 side is easily damaged and broken when an external force such as an earthquake occurs, can be further strengthened and enhanced durability.

The brace 150 includes a rod body 151 having a rod-like structure having a predetermined length, an extension 152 extending from both end surfaces of the rod body 151, A support housing 154 for supporting the sphere 153 in a state in which the spheres 153 are inserted and disposed to prevent rotation of the sphere while preventing rotation of the sphere, An elastic body 155 which is inserted into the support housing 154 and elastically supports the sphere 153 contained in the support housing and which is formed on the support housing 154 and fixedly connected to the reinforcing frame side And a fastening and fixing plate 156 may be included.

Such a brace 150 has a structure for forming a resilient deformation and a free flow, and is capable of deformation corresponding to the direction of formation of a seismic wave when an external force such as an earthquake occurs, absorbing vibration energy due to elastic deformation, The vertical stiffener 110 and the horizontal stiffener 120, which form the reinforcing frame, function to prevent the opening 2 from being damaged.

The cover re-installation step (S80) is a step of fixing the cover member 160 in order to protect the braces 150 in a vertical or horizontal structure and have a flatness with respect to the inner side.

At this time, the cover member 160 is fixed to the outer surface of the vertical stiffener 110 or the horizontal stiffener 120 while covering the brace 150, Can be configured.

In the seismic retrofitting method for an opening in a multi-unit house according to the present invention, the vertical stiffener 110, the horizontal stiffener 120, the sheave 101, and the wire rope 110 using the steel structure of the H- It is possible to induce elastic deformation corresponding to the vibration energy when an external force due to an earthquake or the like is applied to the opening 2 side by utilizing the vibration wave 102, 102 are supported by the pulley 101 and maintain the tension of the vertical stiffener 110 and the horizontal stiffener 120 while maintaining a constant tension by the turnbuckle 103. [

Accordingly, it is possible to greatly improve the seismic performance on the side of the opening portion 2 such as a window or a door that is installed in the apartment house, and to provide the structural design with improved seismic performance, so that when an external force such as an earthquake or a typhoon occurs, It is possible to prevent the structural damage caused by the building and to provide an advantage that the apartment can be prevented from being easily broken.

The vertical stiffener 110 and the horizontal stiffener 120 may be combined with seismic reinforcement utilizing the pulley 101 and the wire rope 102 as described above, So that it is possible to provide an advantage of having an increased strength at the opening side by performing an earthquake-proof action that is not easily broken even when an external force such as an earthquake or a typhoon occurs.

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 invention as defined by the appended claims. And the like can be made, and it will be within the technical scope of the present invention.

2: opening 101: pulley
102: wire rope 103: turnbuckle
110: vertical stiffener 120: horizontal stiffener
130: connection port 140: elastic pad
150: brace 151: brace main body
152: Connection 153: Sphere
154: Supporting housing 155: Elastic body
156: fastening fixing plate 160: cover member

Claims (5)

An earthquake-proof reinforcement method for an opening in a multi-storey building, the earthquake-proof reinforcement being provided on a side of an opening formed in a rectangular house structure,
(A) providing four H steel steel structures for reinforcing the opening side four sides; (B) installing rotatably a pulley at both ends of each of the steel structures; (C) installing vertical stiffeners by vertically arranging two steel structures of the H-shaped steels provided with the pulleys on the left and right sides of the inner side of the opening, respectively; (D) The horizontal stiffener is installed by horizontally arranging the remaining two steel structures of the H-shaped steels provided with the pulleys in the upper and lower directions of the inner surface of the openings. The horizontal stiffener is connected to the vertical stiffener side, Providing a reinforcement frame having a rectangular structure corresponding to the shape of the opening by fixing a connector to a neighboring opening wall; (E) a wire rope is wound around a pulley installed in each of the vertical reinforcement and the horizontal reinforcement to enhance the coupling force between the vertical reinforcement and the horizontal reinforcement, and elastic deformation corresponding to the external force acting through the elastic tension of the wire rope is provided, So as to increase the resistance to the load; (F) inserting an elastic pad between the vertical stiffener and the inner wall of the opening, and between the horizontal stiffener and the inner wall of the opening; (G) installing a brace in a vertical or horizontal structure to support a reinforcing frame having a rectangular structure provided corresponding to the shape of the opening; / RTI >
In the step (E), when the wire rope is wound around the pulley, the turnbuckle is disposed at a midway point between the sheave and the pulley installed at both ends of the vertical reinforcement and the horizontal reinforcement, and the wire rope Connect the ends of the wire rope to the turnbuckle located at the middle point of the wire rope and adjust the tension and tension so that the tightening force and tension between the wire ropes are maintained and the vertical stiffener and the horizontal stiffener are firmly supported To be elastically deformable;
In the step (G), the strut may include a strut body having a rod-shaped structure having a predetermined length, an extending portion extending from both end surfaces of the strut body, a spherical body extending from the respective extending portions, An elastic body inserted in each of the support housings and elastically supporting the spheres contained in the support housings, and a plurality of elongated members formed in the support housings, And a fastening fastening plate for fastening the fastening bolt to the reinforcing frame side through fastening of the fastening bolt. The method according to claim 1,
In the step (B)
A pair of pulleys are provided at both ends of each of the steel structures as the H-shaped steel, the pairs being arranged at respective positions on the recessed portions formed in the forward and backward directions by the intermediate plate member;
In the step (E)
A first wire rope is wound around a sheave located on the front side of the intermediate plate member and connected to the sheave located on the rear side of the intermediate plate member by winding a second wire rope, Wherein the resilient support of the double structure allows the resisting force against the external force to be increased by providing two columns. The method according to claim 1,
The connector includes:
A tunnel connection pipe having an elbow type structure as a steel structure capable of receiving the adjacent vertical stiffeners and horizontal stiffeners to the outside and accommodating the ends thereof inward;
A fastening plate extending from both ends of the tunnel connection tube; / RTI >
In the step (D)
The tunnel connection body of the connector is inserted into the outer side of the neighboring vertical stiffener and the horizontal stiffener and the vertical stiffener is fastened and fixed to one side of the tunnel connection pipe through the bolt and nut fastening and the horizontal stiffener is fastened and fixed to the other side Assembled,
Wherein a reinforcing frame having a rectangular structure corresponding to the shape of the opening is firmly installed by fastening and fixing the anchor bolts in a state in which the fastening plate of the connector is in tight contact with the opening wall. delete The method according to claim 1,
(H) installing the brace in a vertical or horizontal structure, and then protecting and installing the cover material so as to have a flatness with respect to the inner surface; Further comprising:
Wherein the cover member is a diagonal type structure having an open top and both ends so that the cover member can be fitted and fixed to the outer surfaces of the vertical stiffener and the horizontal stiffener while covering the stiffener. Seismic reinforcement method.

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