KR101920417B1 - Seismic retrofit structure - Google Patents

Abstract

According to the present invention, the reinforcing frame provided inside the opening is divided into a pair of first reinforcing frames and second reinforcing frames each having a U-shape, thereby providing excellent workability and absorbing fabrication errors and construction errors, The present invention relates to a reinforced concrete frame seismic reinforcing structure capable of greatly improving seismic performance by being able to adhere to existing structures.
The present invention provides a reinforced concrete frame seismic reinforcing structure for reinforcing a reinforced concrete opening formed by a pair of vertical members and a pair of horizontal members, comprising: a vertical stiffener coupled to an inner surface of the vertical member; And a reinforcing frame composed of an upper horizontal stiffener combined with a lower surface of the upper horizontal member and a lower horizontal stiffener integrally joined to a lower portion of the vertical reinforcing member and coupled to an upper surface of the lower horizontal member, The frame is constituted by a first reinforcing frame and a second reinforcing frame of a C-shaped shape in which the centers of the upper horizontal stiffener and the lower horizontal stiffener are divided and symmetrically formed. The upper horizontal stiffener and the lower horizontal stiffener of the first reinforcing frame, 2 ends of the upper horizontal stiffener and the lower horizontal stiffener of the reinforcing frame are fixedly coupled to the horizontal member, respectively Characterized in that the interconnected by a connecting member.

Description

Seismic retrofit structure of reinforced concrete frame

According to the present invention, a reinforcing frame provided inside the opening is divided into a pair of first reinforcing frames and a second reinforcing frame having a U-shape, thereby providing excellent workability and absorbing manufacturing errors and construction errors, The present invention relates to a reinforced concrete frame seismic reinforcing structure capable of greatly improving seismic performance by being able to adhere to existing structures.

Buildings built before 1988 when seismic design was introduced, or existing low - rise reinforced concrete structures without earthquake - resistant design regulations, require seismic strengthening.

Especially, if an earthquake occurs, tensile cracks can start from openings where stress concentration is severe, and openings are vulnerable to earthquakes.

Accordingly, as shown in FIG. 1, a technique has been developed in which the vertical frame 212 and the horizontal frame 211 are provided inside the opening to reinforce the opening portion (Japanese Patent No. 10-1165320).

The registration technique aims at sufficiently securing the resistance against earthquake by dispersing the horizontal force caused by the earthquake in the vicinity of the opening of the building through the steel frame.

However, the above technique has a problem in that it is difficult to adhere to existing reinforced concrete structures such as pillars and beams when the sizes of the frames 211 and 212 do not coincide with the sizes of the openings.

Accordingly, the amount of the mortar mortar charged in the space between the frames 211 and 212 and the existing reinforced concrete structure is also excessively increased, which is uneconomical. In addition, if the thickness of the mortar is excessive, the seismic performance may deteriorate.

In order to solve the above-mentioned problems, the present invention provides a reinforced concrete frame seismic reinforcing structure capable of absorbing production errors and construction errors to be easily constructed.

The present invention provides a reinforced concrete frame seismic reinforcing structure capable of minimizing the amount of mortar and improving the seismic performance by bringing the reinforcing frame into close contact with the existing reinforced concrete structure.

An object of the present invention is to provide a reinforced concrete frame seismic reinforcing structure that is easy to construct because of its light weight.

According to a preferred embodiment of the present invention, there is provided a vertical reinforcing member coupled to an inner surface of a vertical member to seismically reinforce a reinforced concrete opening formed by a pair of vertical members and a pair of horizontal members, And a reinforcing frame composed of an upper horizontal stiffener joined to a lower surface of the upper horizontal member and a lower horizontal stiffener integrally coupled to a lower portion of the vertical reinforcing member and coupled to an upper surface of the lower horizontal member, Shaped first reinforcement frame and a second reinforcement frame, the upper horizontal reinforcement and the lower horizontal reinforcement being symmetrically divided from each other, and the upper horizontal reinforcement and the lower horizontal reinforcement of the first reinforcement frame, The end portions of the upper horizontal stiffener and the lower horizontal stiffener of the reinforcing frame are connected to the horizontal member Wherein the connecting member is composed of a fixing plate fixedly coupled to the horizontal member and a connecting plate formed vertically to one side of the fixing plate and having a plurality of long slots formed in a transverse direction, And a horizontal stiffener web end of the second reinforcing frame is coupled to the elongated hole of the connecting plate by bolt shearing.

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According to another preferred embodiment of the present invention, the connecting member has a connecting plate connected to the end of the fixing plate to form a curved shape, and a pair of the connecting members are coupled to both sides of the web of the horizontal stiffener. Lt; / RTI >

According to another preferred embodiment of the present invention, at least one coupling plate is coupled to the outer side of the vertical stiffener, and the vertical stiffener is coupled to the inside of the vertical member by the coupling plate. Lt; / RTI >

According to another preferred embodiment of the present invention, a connecting stiffener is provided between the first reinforcing frame and the horizontal stiffener of the second reinforcing frame, and the connecting member is configured to interconnect the ends of the horizontal stiffener and the connecting stiffener. To provide a reinforced concrete frame seismic reinforcement structure.

The present invention has the following effects.

First, the reinforcing frame provided inside the opening is divided into a pair of first reinforcing frames and second reinforcing frames each having a U-shape, thereby absorbing fabrication errors and construction errors so as to be easily constructed.

Second, since a pair of first reinforcing frame and second reinforcing frame divided into left and right portions can be separately constructed, they can be closely attached to existing reinforced concrete structures sequentially. Therefore, it is possible to save the amount of mortar by minimizing the amount of mortar between the reinforcement frame, the vertical member and the horizontal member, and the seismic performance can be improved.

Third, the reinforcing frame can be composed of a pair of first reinforcing frame and second reinforcing frame, or further divided into smaller members by the connecting stiffener. Therefore, the weight of one member for earthquake-proof reinforcement can be greatly reduced, thereby improving the workability.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing an earthquake-proof reinforcement structure for an opening of a conventional reinforced concrete structure. FIG.
2 is a perspective view showing an embodiment of a reinforced concrete frame seismic reinforcing structure according to the present invention.
3 is a front view of the reinforced concrete frame seismic reinforcing structure of the present invention having a connecting member.
4 is a front view of the reinforced concrete frame seismic reinforcing structure of the present invention having a connecting member fixed to a horizontal member.
5 is an enlarged perspective view of the portion 'A' of FIG. 4;
6 is a side sectional view showing an embodiment of a connecting member;
7 is a view showing a coupling relation between a vertical member and a vertical stiffener;
8 is a front view of the reinforced concrete frame seismic reinforcing structure of the present invention having a connecting stiffener.

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

2 is a perspective view showing an embodiment of the reinforced concrete frame seismic retrofitting structure of the present invention.

As shown in FIG. 2, the reinforced concrete frame seismic reinforcing structure of the present invention is for reinforcing the reinforced concrete opening 13 formed by the pair of vertical members 11 and the pair of horizontal members 12 A vertical stiffener 21 coupled to an inner surface of the vertical member 11, an upper horizontal stiffener 22 integrally coupled to an upper portion of the vertical stiffener 21 and coupled to a lower surface of the upper horizontal member 12, And a lower horizontal stiffener 23 integrally coupled to a lower portion of the vertical stiffener 21 and coupled to an upper surface of the lower horizontal member 12. The reinforcing frame includes upper horizontal stiffeners 22, Shaped first reinforcing frame 2a and a second reinforcing frame 2b, the center of the lower horizontal stiffener 23 being divided and symmetrical to each other.

The present invention relates to a reinforced concrete frame seismic reinforcing structure for reinforcing a quadrangular reinforced concrete opening (13) composed of an upper horizontal member (12), a lower horizontal member (12), and left and right vertical members (11).

The vertical member 11 may be a column, a wall member or the like, and the horizontal member 12 may be a beam, a bottom slab, a luffing member, or the like.

A reinforcing frame is coupled to the inside of the opening 13 to reinforce the reinforced concrete opening 13.

The reinforcing frame is composed of a pair of vertical stiffeners 21, upper horizontal stiffeners 22 and lower horizontal stiffeners 23.

An upper horizontal stiffener 22 and a lower horizontal stiffener 23 are integrally coupled to upper and lower portions of the vertical stiffeners 21, respectively.

At this time, the reinforcing frame is constituted by a first reinforcing frame 2a and a second reinforcing frame 2b having a U-shaped shape in which the centers of the upper horizontal stiffener 22 and the lower horizontal stiffener 23 are divided and symmetrical to each other .

That is, the reinforcing frame is divided into a pair of first reinforcing frame 2a and second reinforcing frame 2b having a U-shape.

In the embodiment of FIG. 2, the upper horizontal stiffener 22 and the lower horizontal stiffener 23 are divided because the width of the opening 13 is generally longer than the vertical length. Of course, it is also possible to divide the vertical stiffener 21 according to the vertical length of the opening 13, that is, the height.

If the reinforcement frame is divided into two as described above, the weight of the unit member to be manufactured can be greatly reduced, thereby improving the workability.

The first reinforcing frame 2a and the second reinforcing frame 2b can be divided and constructed so that the first reinforcing frame 2a and the second reinforcing frame 2b can be divided into a vertical member 11 And can be closely attached to the horizontal member (12).

The gap between the vertical member 11 and the vertical stiffener 21 and between the upper horizontal member 12 and the upper horizontal stiffener 22 and between the lower horizontal member 12 and the lower horizontal stiffener 23, Since the thickness of the mortar 27 can be minimized, it is possible to improve the seismic strengthening function and to reduce the amount of mortar 27.

The first reinforcing frame 2a and the second reinforcing frame 2b are constructed such that the ends of the upper horizontal stiffener 22 and the lower horizontal stiffener 23 are spaced apart from each other by a predetermined distance, So that it can be easily constructed.

The gap between the first reinforcing frame 2a and the upper horizontal stiffener 22 of the second reinforcing frame 2b or the gap between the lower horizontal stiffeners 23 is preferably about 50 mm.

The vertical stiffener 21, the upper horizontal stiffener 22 and the lower horizontal stiffener 23 constituting the first reinforcing frame 2a and the second reinforcing frame 2b are formed of various shapes It is preferable to use a steel member such as a pipe, and in some cases, a PC member or the like may be used.

The vertical stiffener 21, the upper horizontal stiffener 22 and the lower horizontal stiffener 23 are fixed to the vertical member 11 or the horizontal member 12 by the anchor bolts 28, respectively, ).

The space between the first reinforcing frame 2a and the second reinforcing frame 2b in contact with the vertical member 11 and the horizontal member 12 can be filled with the mortar 27. [

The reinforced concrete frame anti-seismic reinforcement structure of the present invention can be constructed through the following process.

The reinforced concrete frame inner wall and the like are removed to form the opening 13 with a predetermined size. A pair of vertical members (11) and a pair of horizontal members (12) are provided around the opening (13).

Next, the first reinforcing frame 2a and the second reinforcing frame 2b are inserted into the opening 13 and fixed to the vertical member 11 and the horizontal member 12 with the anchor bolts 28. [

At this time, a predetermined gap is formed between the first reinforcing frame 2a and the second reinforcing frame 2b so as to absorb a manufacturing error and a construction error, and they are brought into close contact with the vertical member 11 and the horizontal member 12 .

Next, the reinforcing frame composed of the first reinforcing frame 2a and the second reinforcing frame 2b is filled with the mortar 27 between the vertical member 11 and the horizontal member 12, Install a coarse finish material in the frame. The opening 13 can be used as a window or the like.

3 is a front view of a reinforced concrete frame seismic reinforcing structure of the present invention having a connecting member.

3, the upper horizontal stiffener 22 and the lower horizontal stiffener 23 of the first reinforcing frame 2a and the upper horizontal stiffener 22 and the lower horizontal stiffener 23 of the second reinforcing frame 2b, 23 may be connected to each other.

That is, the upper end of the upper horizontal stiffener 22 of the first reinforcing frame 2a and the upper end of the upper horizontal stiffener 22 of the second reinforcing frame 2b are interconnected by the connecting member 24, The lower horizontal stiffener 23 of the frame 2a and the adjacent end portions of the lower horizontal stiffener 23 of the second reinforcing frame 2b can be coupled and connected to each other by the connecting member 24. [

The first reinforcing frame 2a and the second reinforcing frame 2b are connected to each other by the connecting member 24 so that the first reinforcing frame 2a and the second reinforcing frame 2b integrally move .

In addition, various construction errors can be absorbed in the connecting member 24.

FIG. 4 is a front view of a reinforced concrete frame seismic reinforcing structure of the present invention having a connecting member fixed to a horizontal member, and FIG. 5 is an enlarged perspective view of the 'A' portion of FIG.

As shown in FIG. 4, the reinforcing frame may be fixedly coupled to the horizontal member 12 by the connecting member 24.

The upper horizontal stiffener 22 and the lower horizontal stiffener 23 of the reinforcing frame are not directly fixed to the upper horizontal member 12 and the lower horizontal member 12, Only the respective connecting members 24 to which the connecting members 23 are coupled can be coupled to the horizontal member 12 to fix the reinforcing frame.

In this case, the construction for securing the reinforcement frame is very simple, but the resistance against lateral load can be maintained, thus making it possible to secure workability and economical efficiency.

5, the connecting member 24 includes a fixing plate 241 fixed to the horizontal member 12 and a connecting plate 242 vertically coupled to one side of the fixing plate 241 The connection plate 242 can be configured to be coupled to the web end portions of the horizontal stiffeners 22 and 23 of the first reinforcing frame 2a and the second reinforcing frame 2b.

The connecting member 24 may have a T-shaped cross section composed of an upper fixing plate 241 and a connecting plate 242 under the fixing plate 241.

The fixing plate 241 and the connecting plate 242 are coupled to the horizontal member 12 and the horizontal stiffeners 22 and 23 so as to connect and fix the horizontal member 12 and the reinforcing frame.

At this time, if the reinforcing frame is an H-shaped steel, the webs of the neighboring first reinforcing frame 2a and the second reinforcing frame 2b are connected to the connecting plate 242 of the connecting member 24.

In addition, the flanges of the horizontal stiffeners 22 and 23 should not interfere with the connecting plate 242 of the connecting member 24. Therefore, the flange on the side of the horizontal stiffeners 22, 23 can be cut off beforehand by the width of the connecting plate 242 or more.

That is, in the embodiment of FIG. 5, the upper flange of the upper horizontal stiffener 22 is cut in advance by more than the width of the connecting member 24 so that the upper horizontal stiffener 22 and the connecting member 24 are not interfered with each other. Likewise, the lower horizontal stiffener 23 can be cut by cutting the lower flange more than the width of the connecting plate 242.

Anchor fastening holes for fastening the anchor bolts 28 may be formed on the fixing plate 241 and the connecting plate 242 of the connecting member 24 and the web of the upper horizontal stiffener 22 connected thereto.

A plurality of long slots S are formed in the connecting plate 242 in the transverse direction and the webs of the horizontal stiffeners 22 and 23 are inserted into the elongated holes S of the connecting plate 242 in front of the bolts B As shown in FIG.

A manufacturing error and a construction error can be absorbed not only by the gap between the neighboring first reinforcing frame 2a and the second reinforcing frame 2b but also by the transverse elongated hole S formed in the connecting plate 242 .

The horizontal stiffeners 22 and 23 and the connecting member 24 are coupled to each other by the front ends of the bolts B fastened to the elongated holes S so that energy is dissipated from the bolted joints when the horizontal displacement occurs, It can act as a damper.

In the present invention, the rigidity and displacement capability of the reinforcing frame can be adjusted according to the shear strength of the joint portion between the first reinforcing frame 2a and the second reinforcing frame 2b, that is, the number of bolts B. Accordingly, it is possible to flexibly cope with the rigidity and load size of the existing frame.

6 is a side sectional view showing an embodiment of the connecting member.

6, the linking member 24 is formed in a shape of a letter "M" by being coupled to an end of the fixing plate 241, and a pair of the linking plates 242 are disposed on both sides of the web of the horizontal stiffeners 22, 23 Respectively.

The connecting member 24 may have a T shape as shown in FIG. 5, or a pair of T-shaped shapes as shown in FIG.

The connecting member 24 shown in the embodiment of Fig. 6 is provided with connecting members 24 on both sides of the web of the upper horizontal stiffener 22, respectively. Therefore, by configuring the pair of connecting members 24 in a back-and-forth symmetrical manner, it is possible to prevent eccentricity from acting on the horizontal stiffeners 22, 23 when the horizontal displacement occurs.

The one pair of link members 24 are connected to the upper horizontal member 12 by anchor bolts 28 and the other legs are positioned on both sides of the upper horizontal reinforcing member 22 and at the same time the anchor bolts 28, Lt; / RTI >

Anchor fastening holes for fastening the anchor bolts 28 may be previously formed on the webs of the one leg and the other legs of the connecting member 24 and the upper horizontal stiffener 22.

Fig. 7 is a view showing the coupling relationship between the vertical member and the vertical stiffener.

7 (a) and 7 (b), at least one coupling plate 25 is coupled to the outer surface of the vertical stiffener 21, and the vertical stiffener 21 May be coupled to the inside of the vertical member 11.

7 (a) and 7 (b) show a front view and a side view, respectively, of the joining portion of the vertical member 11 and the vertical stiffener 21, respectively.

The vertical stiffener 21 may be fixed to the vertical member 11 through the anchor bolts 28 on one flange of the vertical stiffener 21. In this case, This can be difficult.

The coupling plate 25 having a larger width than the flange of the vertical stiffener 21 is welded to the outside of the vertical stiffener 21 and the anchor bolt 28 is fastened to the coupling plate 25 outside the vertical stiffener 21. [ The vertical stiffener 21 can be easily fixed to the vertical member 11, which is convenient.

2, 3 and so on, the hammering member 29 can be coupled to the inside of the corner where the vertical stiffener 21 and the horizontal stiffeners 22, 23 meet.

It is possible to reduce the stress in the joint by joining the hammering member 29 to the corner portion where the moment acts largely when the lateral displacement occurs due to the earthquake load or the like. Therefore, it is possible to reduce the weight of the reinforcing frame, thereby making it possible to economically design the reinforcing frame.

8 is a front view of the reinforced concrete frame seismic reinforcing structure of the present invention having a connecting stiffener.

8, a connecting stiffener 26 is provided between the horizontal stiffeners 22 and 23 of the first reinforcing frame 2a and the second reinforcing frame 2b, And may be configured to mutually connect the end portions of the horizontal stiffeners 22, 23 and the connecting stiffener 26 with each other.

The horizontal reinforcing members 22 and 23 are further divided so that the first reinforcing frame 2a and the second reinforcing frame 23 are separated from each other when the width of the opening 13 is large or the steel frame size of the reinforcing frame is large, The connecting stiffener 26 can be positioned between the horizontal stiffeners 22,

Accordingly, the weight of the unit member can be further reduced, and the workability can be improved by reducing the weight of the member.

The connecting member 24 connects the ends of the one side horizontal stiffeners 22 and 23 with the ends of the other end horizontal stiffeners 22 and 23 of the connecting stiffener 26 and the other end of the connecting stiffener 26 respectively.

In this case, the upper horizontal reinforcement 22, the lower horizontal reinforcement 23 and the upper and lower connecting stiffeners 26 of the reinforcing frame are not directly fixed to the upper horizontal member 12 and the lower horizontal member 12, Only the respective connecting members 24 to which the stiffener 22 and the connecting stiffener 26 or the lower horizontal stiffener 23 and the connecting stiffener 26 are coupled are combined with the horizontal member 12 to fix the reinforcing frame to the existing reinforced concrete structure can do.

11: vertical member 12: horizontal member
13: opening 2a: first reinforcing frame
2b: second reinforcing frame 21: vertical stiffener
22: upper horizontal stiffener 23: lower horizontal stiffener
24: connecting member 241: fixed plate
242: connecting plate 25: engaging plate
26: Connection stiffener 27: mortar mortar
28: anchor bolt 29:
B: Bolt S: Long hole

Claims (8)

In order to reinforce the reinforced concrete opening 13 formed by the pair of vertical members 11 and the pair of horizontal members 12,
An upper horizontal stiffener 22 integrally coupled to an upper portion of the vertical stiffener 21 and coupled to a lower surface of the upper horizontal member 12, And a reinforcing frame composed of a lower horizontal stiffener 23 integrally coupled to a lower portion of the vertical stiffener 21 and coupled to an upper surface of the lower horizontal member 12,
The reinforcing frame is composed of a first reinforcing frame 2a and a second reinforcing frame 2b having a U-shaped configuration in which the centers of the upper horizontal stiffener 22 and the lower horizontal stiffener 23 are divided and symmetrically formed, The end portions of the upper horizontal stiffener 22 and the lower horizontal stiffener 23 of the first reinforcing frame 2a and the upper horizontal stiffener 22 and the lower horizontal stiffener 23 of the second reinforcing frame 2b are connected to the horizontal member The connecting member 24 includes a fixing plate 241 fixed to the horizontal member 12 and a fixing plate 241 fixed to one side of the fixing plate 241 in a vertical direction And a connecting plate 242 having a plurality of elongated longitudinal slots S coupled to the web reinforcement 22 and the web reinforcement 22 of the first reinforcing frame 2a and the second reinforcing frame 2b, Are connected to each other by a bolt (B) shear to the elongated hole (S) of the connecting plate (242) A reinforced concrete frame seismic reinforced structure.
delete delete delete delete The method of claim 1,
The connecting member 24 is connected to both ends of the web of the horizontal stiffeners 22 and 23 so that the connecting plate 242 is coupled to the end of the fixing plate 241 and is formed into a square shape. Concrete frame seismic reinforced structure.
The method of claim 1,
At least one coupling plate 25 is coupled to the outer surface of the vertical stiffener 21 so that the vertical stiffener 21 is coupled to the inside of the vertical member 11 by the coupling plate 25. [ Reinforced Concrete Framed Frame Seismic Retrofit.
The method of claim 1,
A connecting stiffener 26 is provided between the first reinforcing frame 2a and the horizontal stiffeners 22 and 23 of the second reinforcing frame 2b and the connecting member 24 is provided between the horizontal stiffeners 22 and 23 And the end portions of the connecting stiffeners (26) are interconnected.

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