KR101876511B1 - Window seismic system using Steel Frame with Slit - Google Patents

Abstract

The present invention relates to a seismic system of an inner and outer part of a window using a steel frame having slits. According to the present invention, there is provided a seismic system of an inner and outer part of a window using a steel frame having slits, the seismic system including: an inside seismic part provided on an inside surface of a window; and an outside seismic part provided on an outside surface of the window, wherein the inside seismic part includes inner steel columns attached to inside surfaces of columns of the window and inner steel beams attached to inside surfaces of beams of the window, the inner steel beams being connected to the inner steel columns at the opposite ends thereof and having multiple long slits provided by being spaced apart from each other in vertical directions, and wherein the outside seismic part includes outer steel columns attached to outside surfaces of the columns of the window and outer steel beams attached to outside surfaces of beams of the window, the outer steel beams being connected to the outer steel columns at the opposite ends thereof and having multiple long slits provided by being spaced apart from each other in front/backward directions. Accordingly, the seismic system according to the present invention can improve the safety of buildings by absorbing vertical/horizontal-direction weights caused by earthquake.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a seismic system using a steel frame having a slit,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an earthquake-proof system for a window frame using a steel frame,

Recently, earthquakes are frequently occurring in countries adjacent to Korea, and Korea is not small in scale, but many earthquakes have occurred.

Therefore, if a natural disaster such as an earthquake occurs, the buildings may cause a great damage due to the vibration. Therefore, a system for earthquake resistance is required for the buildings. Especially, in order to secure the visibility, It is necessary to have seismic equipments which absorb the vibration and load due to the vibration and improve the safety of the entire building.

However, the earthquake-proof system of the window which has been proposed so far does not have a satisfactory earthquake-proof effect.

Application No. 10-2010-0056861 (registration number: 10-1000206, title of invention: window system having seismic performance)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a slit for slit- And to provide an inner and outer earthquake-proof seismic system using a formed steel frame.

To achieve the above object, according to the present invention, there is provided an internal and external earthquake-resistant seismic system using a steel frame having slits formed therein, the seismic resistant system comprising: an inner seawater installed on a side of a window; and an outer seawater installed on an outer side of the window; Wherein the inner earthquake-resistant portion comprises an inner steel column attached to an inner side surface of a column of a window, and an inner steel beam attached to an inner surface of a beam of the window, both ends of which are connected to the inner steel column and a plurality of slits are vertically spaced apart; The outer earthquake-resistant portion is composed of an outer steel column attached to the outer surface of the column of the window, and an outer steel beam attached to the beam outer surface of the window, both ends of which are connected to the outer steel column, and a plurality of long slits are spaced apart in the longitudinal direction.

Here, the inner steel column may include an H beam extended in the vertical direction, a joint plate disposed at an interval on the inner surface of the H beam, a reinforcing plate provided between the joint plates, And a fillet plate connected to the joining plate and attached to the column of the window; The H-beam is provided on the upper surface of the H beam, and the T-shaped beam is formed in the vertical direction so that the slits are spaced apart from each other by a predetermined distance. The inner steel beam is installed between the slits, And a reinforcing plate formed at regular intervals.

A reinforcing connecting plate connecting the end portion of the inner steel column and the end portion of the inner steel beam is installed.

The outer steel column has an H beam extended in the vertical direction, a joint plate installed at a predetermined interval on the outer side of the H beam and attached to the outer surface of the column of the window, And a reinforcing plate which is installed as a reinforcing plate; The H-beam is provided at a predetermined interval on the inner surface of the H beam. The H-beam is disposed at a predetermined interval in the longitudinal direction of the H-beam, .

A reinforcing connecting plate connecting the end portion of the outer steel column and the end portion of the outer steel frame is installed.

In the inner and outer seismic system of a window using the steel slab having the slit formed as described above, a steel structure made up of an inner seawater and an outer seawater is installed on the inside and outside of the window, A long slit is formed in the forward and backward directions to absorb the load in the vertical direction and the load in the horizontal direction caused by the earthquake, thereby making it possible to secure the safety of the building.

1 is a perspective view showing a state in which an inner earthquake-resistant portion of a window inner and outer earthquake-proof system using a steel frame with a slit according to the present invention is installed in a window.
Fig. 2 and Fig. 3 are perspective views showing the inner seismic section shown in Fig. 1. Fig.
Fig. 4 is a front view of the inner rim portion shown in Fig. 1. Fig.
5 is a plan view of the inner rim portion shown in Fig.
6 is a perspective view showing a state in which an outside earthquake-resistant portion of a window inner and outer earthquake-proof system using a steel frame with a slit according to the present invention is installed on a window.
Figs. 7 and 8 are perspective views showing an outer seismic portion shown in Fig. 6; Fig.
Fig. 9 is a front view of the outer rim portion shown in Fig. 6; Fig.
10 is a plan view of the outer rim portion shown in Fig.
11 is a side view of the outer steel column shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of an inner and outer window seismic system using a steel frame with a slit according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing an inner seismic section of a window inner and outer seismic system using a steel frame having slits according to the present invention installed on a window, FIGS. 2 and 3 are perspective views showing an inner seismic section shown in FIG. 1, 1 is a front view of the inner rim portion shown in Fig. 1, and Fig. 5 is a plan view of the inner rim portion shown in Fig.

FIG. 6 is a perspective view showing a state in which an outside earthquake-resistant portion of a window inner and outer earthquake-proof system using a steel frame having a slit according to the present invention is installed on a window, FIGS. 7 and 8 are perspective views showing the outer earthquake- Fig. 9 is a front view of the outer rim portion shown in Fig. 6, Fig. 10 is a plan view of the outer rim portion shown in Fig. 6, and Fig. 11 is a side view of the outer steel column shown in Fig.

The internal and external earthquake-resistant seismic system using a steel frame having slits according to the present invention comprises an inner seawall 100 installed on the inner side of a window 1, an outer seawater 200 installed on an outer side of the window 1, .

The pillars 1a and 1b are provided on the left and right sides of the window 1 so that the pillars 1a are spaced apart from each other and the beams 1a and 1b are spaced apart from each other. The end portions are connected to each other to form the same shape as the four-legged frame. The inner rim portion 100 provided on the inner side of the window 1 in the shape of a quadrangle is an outer rim portion 200 provided on the outer side of the front side of the window 1 in the quadrangular pyramid shape.

The inner rim portion 100 includes an inner steel frame column 110 installed vertically in the vertical direction, an inner steel frame beam 120 installed to be long in the horizontal direction, and an inner steel frame column 110 connected to the inner steel frame beam 120 And a reinforcing connecting plate (130).

The inner steel column 110 is attached to the inner side of the column 1a of the window 1 and includes an H beam 111 and a bonding plate 112 disposed at a predetermined interval on the inner side of the H beam 111, A reinforcing plate 113 provided between the bonding plates 112 and a filling steel plate 114 connected to the ends of the H beams 111 and the bonding plate 112.

The H beam 111 is a steel material having an H-shaped cross section that is long in the vertical direction.

The bonding plate 112 is an iron plate manufactured in the form of 'a' or 'b', and is attached and fixed to the inner surface of the H beam 111.

The reinforcing plate 113 is a quadrangular plate having corners fixed on the inner surface of the H beam 111, and reinforces the rigidity of the H beam 111.

The filler metal plate 114 is integrated with the end of the H beam 111 and the outer surface of the bonding plate 112 and is attached to the column 1a of the window 1 by bolting. A portion of the front end of the joining plate 112 is exposed to the outside of the H beam 111. A filler steel plate 114 is provided on the exposed portion of the joining plate 112 to join the inside surface of the column 1a of the window 1 Filling the gap between the plates 112.

The inner steel beam 120 is attached to the inner surface of the beam 1b of the window 1 so that both ends are connected to the inner steel column 110 and a plurality of slits 122c are vertically spaced apart. The inner steel beam 120 includes an H beam 121, a T beam 122 installed on the upper surface of the H beam 121, and a plurality of reinforcing plates 123 installed on the inner surface of the H beam 121 ).

The H beam 121 is a steel material having an H-shaped cross section which is long in the lateral direction.

The T-shaped beam 122 is a steel material having a T-shaped cross section that is long in the lateral direction. Thus, the T-beam 122 is comprised of a horizontal surface 122a and a vertical surface 122b that is erected at the center of the bottom surface of the horizontal surface 122a.

The horizontal surface 122a is a portion that is in surface contact with the beam 1b of the window 1. The vertical surface 122b is a portion connected to the H beam 121 and has a slit 122c extending vertically, Are formed at regular intervals.

The slit 122c is twisted when a vertical load is applied by an earthquake, thereby absorbing an impact caused by an earthquake, thereby minimizing the influence on the building.

The reinforcing plate 123 is installed on the H beam 121 and the T beam 122. The reinforcing plate provided on the T beam 122 is vertically provided between the slits 122c and the H beam 121 Is installed perpendicularly to the inner surface of the H beam 121. The H-

The reinforcing connecting plate 130 connects an end portion of the inner steel column 110 with an end portion of the inner steel beam 120. The H beam 111 of the inner steel column 110 and the H beam 121 of the inner steel beam 120 are connected to the reinforcing connecting plate 130 so that the inner steel column 110 and the inner steel beam 120 are connected to each other, Are firmly coupled to each other.

The outer rim portion 200 includes an outer steel column 210 extending vertically and an outer steel bar 220 extending vertically in the left and right direction and an outer steel bar 210 connected to the outer steel bar 220, And a reinforcing connecting plate 230 which is made of a metal.

The outer steel column 210 is attached to the outer surface of the column 1a of the window 1 and includes an H beam 211 and a joint plate 212 provided at a predetermined interval on the outer surface of the H beam 211 And a reinforcing plate 213 disposed at an inner side of the H beam 211 at regular intervals.

The H beam 211 is a steel material having an H-shaped cross-section that is long in the vertical direction.

The joining plate 212 is an iron plate manufactured in the form of 'A' or 'B', attached to both outer sides of the H beam 211, and fixed to the column 1a of the window 1 by bolting As shown in Fig. The joining plate 212 is attached to the H beam 211 so as to protrude from the rear edge of the H beam 211. When the joining plate 212 is joined to the column 1a of the window 1, A gap is formed between the pillar 211 and the column 1a of the window 1 by a distance from the outer surface of the pillar 1a of the window 1. [

The reinforcing plate 213 is a quadrangular plate having corners fixed on the inner surface of the H beam 211, and reinforces the rigidity of the H beam 211.

The outer steel beam 220 is attached to the outer surface of the beam 1b of the window 1 and has both ends connected to the outer steel column 210 and a plurality of slits 222c spaced apart in the longitudinal direction. The external steel beam 220 includes an H beam 221, a T beam 222 disposed behind the H beam 221 and a plurality of reinforcing plates 223 provided on the inner surface of the H beam 221 ).

The H beam 221 is a steel material having an H-shaped cross section that is long in the lateral direction.

The T-shaped beam 222 is a steel material having a T-shaped cross section which is long in the lateral direction. Thus, the T-shaped beam 222 is composed of a horizontal surface 222a and a vertical surface 222b standing upright at the center of the horizontal surface 222a.

The horizontal surface 222a is vertically long and connected to the beam 1b of the window 1 when it is connected to the H beam 221. [

The vertical surface 222b is horizontally arranged in the forward and backward direction (horizontal direction) when connected to the H beam 221, and the lower end is connected to the center surface of the H beam 221. On the vertical surface 222b, slits 222c are formed at predetermined intervals in the longitudinal direction.

The slit 222c is distorted when a horizontal load is applied by an earthquake, thereby absorbing an impact caused by an earthquake, thereby minimizing the influence on the building. The slit 122c of the inner dustproof portion 100 absorbs the upward and downward loads and absorbs the horizontal load by the slit 222c of the outer dustproof portion 200. [

The reinforcing plate 223 is installed on the H beam 221 and the T beam 222. The reinforcing plate provided on the T beam 222 is installed vertically between the slits 222c and the H beam 221 Is installed perpendicularly to the inner surface of the H beam 221. The H-

The reinforcing connecting plate 230 connects the end of the outer steel bar 210 and the end of the outer steel bar 220. More specifically, the H beam 211 of the outer steel column 210 and the H beam 221 of the outer steel beam 220 are connected to the reinforcing connecting plate 230, thereby connecting the outer steel column 210 and the outer steel bar 220, Are firmly coupled to each other.

1: window 1a: column
1b: beam
100: Inner internal crest 110: Internal steel column
111: H beam 112: junction plate
113: reinforcing plate 114: filled steel plate
120: internal steel frame 121: H beam
122: T-shaped beam 122a: horizontal plane
122b: vertical surface 122c: slit
123: reinforcing plate 130: reinforcing connecting plate
200: outer rim 210: outer steel column
211: H beam 212: bonding plate
213: reinforcing plate 220: outer steel rope
221: H beam 222: T beam
222a: horizontal plane 222b: vertical plane
222c: slit 223: reinforcing plate
230: reinforced connecting plate

Claims (5)

An inner rim portion 100 provided on the inner side of the window 1 and an outer rim portion 200 provided on the outer side of the window 1,
The inner rim portion 100 has an inner steel column 110 attached to the inner side surface of the column 1a of the window 1 and an inner steel column 110 attached to the inner surface of the window 1b of the window 1, And a plurality of slits 122c spaced apart from each other in a vertical direction and spaced apart from each other,
The outer rim portion 200 has an outer steel column 210 attached to the outer surface of the column 1a of the window 1 and an outer steel column 210 attached to the outer surface of the beam 1b of the window 1, And an outer steel beam 220 connected to the outer frame 210 and having a plurality of long slits 222c spaced apart in the longitudinal direction,
The inner steel column 110 includes an H beam 111 extended vertically and a bonding plate 112 disposed at an interval on the inner surface of the H beam 111, And a fillet steel plate 114 connected to an end of the H beam 111 and the joining plate 112 to be attached to the column 1a of the window 1,
The inner steel beam 120 includes an H beam 121 extended in the left and right direction, a T beam 122 formed on the upper surface of the H beam 121 and having a predetermined length in the vertical direction, , And a reinforcing plate (123) provided between the slits (122c) and formed at regular intervals on an inner surface of the H beam (121).
delete The method according to claim 1,
Wherein a reinforcement connecting plate (130) connecting an end portion of the inner steel column (110) and an end portion of the inner steel beam (120) is installed.
The method according to claim 1,
The outer steel column 210 includes an H beam 211 extended vertically and a plurality of H beams 211 attached to the outer surface of the column 1a of the window 1 at regular intervals on the outer surface of the H beam 211 A joining plate 212 and a reinforcing plate 213 provided on the inner surface of the H beam 211 at regular intervals,
The external steel beam 220 includes an H beam 221 extended in the left and right direction and a T beam 222 provided at a rear of the H beam 221 and having a slit 222c formed in a longitudinal direction , And a reinforcing plate (223) formed at an inner surface of the H beam (221) at regular intervals.
The method according to claim 1,
Wherein a reinforcement connecting plate (230) connecting an end of the outer steel column (210) and an end of the outer steel beam (220) is installed.

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