KR101909198B1 - Steel frame for seismic retrofit - Google Patents

Abstract

The present invention relates to a seismic reinforcement steel frame, wherein interference with a member forming a steel frame does not occur in installation of an anchor bolt when seismic reinforcement is performed by additionally installing the steel frame in an existing rebar concrete frame, such that installation is facilitated and excellent seismic reinforcement performance is provided. According to the present invention, the seismic reinforcement steel frame reinforcing an existing rebar concrete frame having horizontal and vertical members comprises: a fixing member including a fixing plate coupled to the inner surface of a rebar concrete member and a pair of side fixing plates extended from both ends of the fixing plate in a right angle and closely adhered to a side surface of the rebar concrete structure by an anchor bolt to surround and restrict the rebar concrete member; and a T-shaped reinforcement member fixed inside the fixing member, and including a web and a flange to couple the web to the fixing member.

Description

Steel frame for seismic retrofit}

The present invention relates to an anti-seismic reinforcement steel frame which is easy to install and has excellent seismic strengthening performance because it does not interfere with a member constituting a steel frame when an anchor bolt installation work is performed by installing a steel frame frame in a conventional reinforced concrete frame It is about.

As earthquakes frequently occur at home and abroad, demand for reinforced concrete reinforced concrete structures is increasing.

In particular, there is a great need for seismic retrofitting of existing low - rise buildings where no seismic design was introduced before 1988 or seismic design regulations.

Therefore, in the case of the rainstorm consisting of a column and a beam, a reinforcement detail which increases rigidity and ductility of the structure by additionally installing a steel frame inside the frame has been developed.

In the case of reinforcing a steel frame composed of a conventional column and a beam with a steel frame, the H-shaped steel is joined and reinforced inside the reinforced concrete member as in the registered patent No. 10-0149848.

However, this H-shaped steel is fixedly coupled to the inside of the member by an anchor bolt, and it is difficult to install the anchor hole and the anchor bolt due to interference with the upper flange of the H-shaped steel.

In order to solve the above-mentioned problems, the present invention provides an anti-seismic reinforcing steel frame which is easy to install due to no interference with a member constituting a steel frame frame and has excellent seismic reinforcement performance, when a steel frame frame is additionally installed in a conventional reinforced concrete frame for anti- Frame.

According to a preferred embodiment of the present invention, there is provided an earthquake-resistant reinforcement frame for reinforcing an existing reinforced concrete frame composed of a vertical member and a horizontal member, comprising a fixed plate coupled to an inner surface of a reinforced concrete member, And a pair of side fixing plates formed to extend in a direction perpendicular to the reinforcing concrete member and being tightly fixed to the side surfaces of the reinforcing concrete member by an anchor bolt, the fixing member wrapping and restraining the reinforcing concrete member; A T-shaped reinforcing member which is fixed to the inside of the fixing member and is composed of a web and a flange and the web is coupled to the fixing member; And a coupling plate formed to have a T-shaped cross-section composed of a web and a flange, the one side of the web being protruded from the inner surface of the fixed plate of the fixing member And a corner stiffener fixedly coupled to one side of the frame.

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According to another preferred embodiment of the present invention, the web of the T-shaped reinforcement member is fixedly coupled to a coupling plate protruding from the inner surface of the fixed plate.

According to another preferred embodiment of the present invention, the T-shaped reinforcement member is composed of a pair of U-shaped beams, and the webs of the U-shaped beams are fixedly coupled to the side surfaces of the coupling plates of the fixing member. Frame.

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According to the present invention, the fixing member constituting the anti-seismic reinforcing frame can be formed in a C shape or the fixing member and the T-shaped reinforcement member can be separated from each other.

Therefore, it is possible to construct without reinforcement of the T-shaped reinforcement member when the steel frame is installed in the existing reinforced concrete frame for earthquake reinforcement, when anchor hole drilling work for fixing the fixing member to the reinforced concrete member, anchor bolt installation work, Thus, it is possible to provide an anti-seismic reinforcement steel frame that is easy to install and has excellent anti-seismic performance.

1 is a perspective view showing an embodiment of a steel frame for anti-seismic reinforcement.
2 is a cross-sectional view taken along line A-A 'in Fig.
3 is a cross-sectional view showing another embodiment of a steel frame for anti-seismic reinforcement.
4 is a sectional view showing an embodiment of a steel frame for seismic retrofitting according to the present invention.
5 is a sectional view showing another embodiment of a steel frame for seismic retrofitting according to the present invention.
6 is a cross-sectional perspective view showing another embodiment of a steel frame for seismic retrofitting according to the present invention.
7 is a sectional view showing still another embodiment of a steel frame for seismic retrofitting according to the present invention.
8 is a sectional view showing still another embodiment of a steel frame for seismic retrofitting according to the present invention.
Fig. 9 is a perspective view showing an embodiment of an edge reinforcement. Fig.
10 is a front view showing a reinforced concrete frame before the corner stiffener is installed.
11 is a front view showing a reinforced concrete frame after the corner stiffener is installed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

Fig. 1 is a perspective view showing an embodiment of a steel frame for anti-seismic reinforcement, and Fig. 2 is a sectional view taken along the line A-A 'in Fig.

1 and 2, the steel frame for seismic retrofitting according to the present invention comprises an earthquake-proof reinforcement frame 2 for reinforcing an existing reinforced concrete frame composed of a vertical member 11 and horizontal members 12 and 13 A fixing plate 211 coupled to the inner side surfaces of the reinforcing concrete members 11, 12 and 13 and a pair of reinforcing concrete members 11 and 12 A fixing member 21 which is composed of a pair of side fixing plates 212 tightly fixed to side surfaces of the reinforcing concrete members 11, 12, 13 by the anchor bolts 23; And a T-shaped reinforcing member 22 which is fixed to the inside of the fixing member 21 and is composed of a web 221 and a flange 222 and the web 221 is coupled to the fixing member 21; . ≪ / RTI >

The present invention provides an anti-seismic reinforcing frame (2) which is installed in a reinforced concrete frame for seismic reinforcement of a conventional reinforced concrete frame, and which is easy to install and has excellent seismic strengthening performance.

The conventional reinforced concrete frame is composed of a vertical member 11 and horizontal members 12 and 13.

The vertical member 11 includes columns and the like, and the horizontal members 12 and 13 include beams, slabs, and the like.

The seismic strengthening frame 2 is composed of a fixing member 21 and a T-shaped reinforcing member 22.

The fixing member 21 includes a fixing plate 211 coupled to the inner surfaces of the reinforcing concrete members 11, 12 and 13.

Here, the inner side refers to the inner side of the reinforced concrete frame.

The fixing member 21 is configured to fix the seismic strengthening frame 2 to the reinforced concrete members 11, 12, and 13.

The fixing plate 211 of the fixing member 21 can be fixed to each member surface of the reinforced concrete frame by an anchor bolt 23 or the like.

In particular, when the horizontal members 12 and 13 are slabs 13, the fixing member 21, which is a plate, can be directly fixed to the upper surface of the slab 13. [

The T-shaped reinforcing member 22 is fixed to the inside of the fixing member 21. [

The T-shaped reinforcement member 22 is composed of a web 221 and a flange 222, and the web 221 is engaged with the fixing member 21.

The T-shaped reinforcement member 22 is separable from the fixing member 21 and can be fixed to one side of the fixing member 21 by welding after the fixing member 21 is installed.

Accordingly, when the anchor hole drilling operation for fixing the fixing member 21 to the reinforcing concrete members 11, 12, 13 with the anchor bolts 23 and the like, the installation work of the anchor bolts 23, (22).

The T-shaped reinforcement member 22 may be a CT-shaped steel having a T-shaped cross section by cutting a bell part of the H-shaped steel, and may have a built-up section assembled to have a T- Member may be used.

2, the fixing plate 211 of the fixing member 21 is fixedly coupled to the inner surfaces of the reinforced concrete members 11, 12 and 13 by the anchor bolts 23, and the T- The workpiece 223 may be formed on the flange 222 of the member 22 at a position corresponding to the anchor bolt 23.

If the T-shaped reinforcement member 22 is integrally formed with the fixing member 21, the flange 222 of the T-shaped reinforcement member 22 is interfered with when the anchor hole drilling operation or the anchor bolt 23 is installed, It can be inconvenient.

The flange 222 of the T-shaped reinforcement member 22 may interfere with the operation of the joint of the anchor bolt 23 after the T-shaped reinforcement member 22 is fastened to the fastening member 21, Can be followed.

When the work hole 223 is formed in the flange 222 of the T-shaped reinforcement member 22, a tool such as a drill bit can be inserted through the work hole 223 to perform installation or repair work. Therefore, the work is easy without interference with the flange 222 of the T-shaped reinforcement member 22. [

3 is a cross-sectional view showing another embodiment of a steel frame for anti-seismic reinforcement.

3, the fixing plate 211 of the fixing member 21 is fixed to the reinforcing concrete members 11, 12, 13 by the anchor bolts 23 on both sides of the web 221 of the T- 13, the width of the flange 222 of the T-shaped reinforcement member 22 may be narrower than the spacing of the anchor bolts 23 on both sides of the web 221.

When the fixing plate 211 of the fixing member 21 is fixedly coupled to the inner surfaces of the reinforcing concrete members 11, 12 and 13 by the anchor bolts 23, the flange 222 of the T- The end of the flange 222 can be positioned inside the position of the anchor bolt 23 so as not to interfere with the anchor bolt 23.

That is, the length of one side of the flange 222 can be shorter than the distance between the web 221 of the T-shaped reinforcement member 22 and the anchor bolt 23.

In this case, if the thickness of the flange 222 is increased as necessary, the rigidity of the T-shaped reinforcing member 22 can be maintained.

4 is a cross-sectional view showing an embodiment of a steel frame for seismic retrofitting according to the present invention.

4, the fixing member 21 is formed at both ends of the fixing plate 211 at right angles to each other. The reinforcing concrete members 11 and 12 are fixed to the side surfaces of the reinforcing concrete members 11 and 12 by anchor bolts 23 And a pair of side fixing plates 212 that are closely fixed to each other can be further included.

The fixing member 21 includes a fixing plate 211 coupled to the inner surfaces of the reinforcing concrete members 11, 12 and 13 and a pair of side fixing plates 212 extending at right angles at both ends of the fixing plate 211. [ .

When the fixing member 21 is coupled to the column 11 or the beam 12, the fixing member 21 may be formed in a generally U-shape to enclose the reinforced concrete members 11 and 12. [

In this case, the anchor bolts 23 are installed on the side fixing plates 212 on the side surfaces of the reinforcing concrete members 11 and 12 without installing the separate anchor bolts 23 on the fixing plate 211, 11, and 12, respectively.

The seismic strengthening frame 2 in which the fixing member 21 and the T-shaped reinforcing member 22 are integrally formed can be installed without interference of the T-shaped reinforcing member 22 when the fixing member 21 is installed. Even if it is easy to construct.

In addition, the strength and ductility of the reinforced concrete members 11 and 12 are increased because the c-shaped fixing member 21 constrains the reinforced concrete members 11 and 12 by covering them.

Also, since the side fixing plates 212 are fixed and reinforced at the side surfaces of the reinforcing concrete members 11 and 12, shear cracks can be reduced by resisting the shearing force.

The fixing member 21 chipping the member side surfaces of the reinforced concrete frame to which the fixing member 21 is installed in advance before the installation and the fixing plate 21 and the side fixing plates 212 ) And the side surface of the member so as to be closely contacted with each other.

In the meantime, a long bolt (not shown) passing through the reinforcing concrete members 11 and 12 may be provided in place of the anchor bolts 23 so that the side fixing plates 212 on both sides of the fixing member 21 are simultaneously inserted into the reinforcing concrete members 11, and 12, respectively.

FIG. 5 is a cross-sectional view showing another embodiment of a steel frame for seismic retrofitting according to the present invention, FIG. 6 is a sectional perspective view showing another embodiment of a steel frame for seismic retrofitting according to the present invention, Sectional view showing still another embodiment of the frame.

5, 7 and so on, a coupling plate 213 is protruded from the inner surface of the fixing plate 211, and the web 221 of the T-shaped reinforcing member 22 is engaged with the coupling plate 213 As shown in Fig.

The fixing member 21 and the T-shaped reinforcing member 22 may be integrally formed, but may be separated from each other for ease of construction. In other words, they can be separated from each other in order to avoid interference with the T-shaped reinforcing member 22, weight reduction of the members, mutual interference at corner installation, and the like.

Accordingly, after the fixing member 21 is fixed to the respective members of the reinforced concrete frame, the T-shaped reinforcing member 22 can be joined to the fixing member 21 later.

Particularly, when the T-shaped reinforcement member 22 is separated from the fixing member 21, there is no separate protruding portion in the fixing member 21, so that it is easy to closely attach the fixing member 21 to the corner portion of the reinforced concrete frame .

The T-shaped reinforcement member 22 can be fixed by bolts B or welding by closely contacting one side of the web 221 to one side of the coupling plate 213 (FIGS. 5 and 6). In this case, since the T-shaped reinforcement member 22 can be coupled to the side surface, it is easy to install the T-shaped reinforcement member 22 at the corner of the reinforced concrete frame.

The ribs 214 may be coupled to the other side of the web 221 of the T-shaped reinforcement member 22 or the coupling plate 213 to reinforce the joint.

The coupling plate 213 may be formed to be continuous along the longitudinal direction of the fixing plate 211. However, as shown in FIG. 6, it is preferable that the plurality of coupling plates 213 are spaced apart from each other along the longitudinal direction of the fixing plate 211 in order to save the amount of steel.

7, the engaging plate 213 of the fixing member 21 and the web 221 of the T-shaped reinforcing member 22 are positioned on the same axis, and then the web 221 is placed on both sides of the web 221 And the additional rate 215 may be combined and fixed.

Thus, eccentricity can be prevented from occurring when the coupling plate 213 and the web 221 are positioned on the same line. In this case, unlike the embodiment of FIG. 6, it is preferable that the coupling plate 213 is formed so as to be continuous in the longitudinal direction of the fixing member 21.

The coupling plate 213 may be previously coupled to the fixing plate 211 in advance or may be fixed to the side surface of the member in advance and then coupled to the fixing plate 211 by welding at the site.

8 is a cross-sectional view showing still another embodiment of a steel frame for seismic retrofitting according to the present invention.

8, the T-shaped reinforcement member 22 is constituted by a pair of U-shaped beams 22a and 22b, and the web 221 of each of the U-shaped beams 22a and 22b is fixed to the fixing member 21, To be in close contact with the side surface of the coupling plate 213 of the first embodiment.

The reinforcing members 22a and 22b can be combined with each other on the left and right sides of the engaging plate 213 without separating the reinforcing member 22 into a pair of reinforcing members 22a and 22b. And can be configured symmetrically.

In this case, since the T-shaped reinforcement member 22 is symmetrically formed around the coupling plate 213, eccentricity can be prevented.

FIG. 9 is a perspective view showing an embodiment of a corner stiffener, FIG. 10 is a front view showing a reinforced concrete frame before the corner stiffener is installed, and FIG. 11 is a front view showing a reinforced concrete frame after the corner stiffener is installed.

9 and 11, an angular stiffener 24 is coupled to the inside of the corner where the vertical member 11 and the horizontal members 12 and 13 meet, A side surface of the web 241 of the edge stiffener 24 protrudes from the inside surface of the fixing plate 211 of the fixing member 21 and has a T-shaped cross section composed of the flange 241 and the flange 242, And can be configured to be fixedly coupled to the side surface.

When the seismic retrofit frame 2 composed of the fixing member 21 and the T-shaped reinforcing member 22 is provided at the corner of the reinforced concrete frame, the vertical member 11 and the T Type reinforcing members 22 are interfered with each other.

Therefore, each of the T-shaped reinforcing members 22 coupled to the vertical member 11 and the horizontal members 12, 13 is formed to be slightly shorter than the member length of the frame, and a separate edge stiffener 24 is inserted inside the corner portion .

The edge reinforcement 24 is installed inside a corner where the vertical member 11 of the reinforced concrete frame and the horizontal members 12 and 13 meet.

The corner stiffener 24 is integrally formed as viewed from the front and is coupled to the vertical member 11 and the horizontal members 12 and 13, respectively.

In this case, it is preferable to install the fixing member 21 in advance. The fixing member 21 is cut in accordance with the entire length of the reinforced concrete members 11, 12, 13 irrespective of the length of the T-shaped reinforcing member 22 You can install it at once.

The edge reinforcement 24 has a T-shaped cross-section composed of a web 241 and a flange 242.

A side surface of the web 241 of the edge stiffener 24 is fixed to one side of the coupling plate 213 so that the side surface of the web 241 of the edge stiffener 24 is fixedly coupled to the fixing plate 21, .

That is, as shown in FIG. 10, the coupling plate 213 is welded to each of the portions where the vertical member 11 and the fixing members 21 provided on the horizontal members 12 and 13 meet, and the webs of the corner stiffeners 24 (241) can be coupled to the coupling plate (213) and fixed.

The inner edge of the edge reinforcement 24 can be reinforced with respect to the end moment and the shearing force by engaging the hook 243 with an oblique line.

And the reinforcement plate 244 may be coupled between the inner edge of the corner stiffener 24 and the hammers 243 to reinforce the hammers 243.

11: vertical member 12, 13: horizontal member
2: Seismic reinforcing frame 21: Fixing member
211: fixing plate 212: side fixing plate
213: coupling plate 214: rib plate
215: additional rate 22: T-shaped reinforcing member
22a, 22b: a section steel 221: web
222: Flange 223: Workpiece
23: Anchor bolt 24: Corner reinforcement
241: web 242: flange
243: Hook 244: Reinforcing plate
B: Bolt E: Epoxy

Claims (7)

The present invention relates to an earthquake-proof reinforcing frame (2) for reinforcing an existing reinforced concrete frame composed of a vertical member (11) and horizontal members (12, 13)
12 and 13 formed at both ends of the fixing plate 211 and extending at right angles to the reinforcing concrete members 11, 12 and 13, respectively, And a pair of side fixing plates 212 tightly fixed to the side surfaces of the reinforcing concrete members 11, 12, 13 by the anchor bolts 23 to fix the reinforcing concrete members 11, 12, 13;
A T-shaped reinforcing member 22 which is fixed to the inside of the fixing member 21 and is composed of a web 221 and a flange 222 and the web 221 is coupled to the fixing member 21; And
And is formed in a T-shaped cross-section composed of a web 241 and a flange 242 so as to connect the web 241 and the horizontal member 12, And a corner stiffener (24) fixedly coupled to one side of an engaging plate (213) having one side protruding from the inner surface of the fixing plate (211) of the fixing member (21).
delete delete delete The method of claim 1,
And the web 221 of the T-shaped reinforcement member 22 is fixedly coupled to the coupling plate 213 protruding from the inner surface of the fixed plate 211. [
The method of claim 5,
The T-shaped reinforcement member 22 is constituted by a pair of U-shaped beams 22a and 22b and the web 221 of each of the U-shaped beams 22a and 22b is provided on the side of the coupling plate 213 of the fixing member 21 And is fixedly coupled to the frame member.
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