KR101791819B1 - To improve the seismic performance of buildings, steel plate frame concrete seismic strengthening method - Google Patents

Abstract

The present invention relates to a steel plate frame concrete seismic retrofitting method in which the stability of a column is improved to improve the seismic performance of a building. The steel plate frame, which can be mounted on the outside wall of the existing column, And anchor bolts are used to fix the existing columns to maximize the bonding force between the existing columns and the steel plate frames to enhance the seismic performance,
Screw reinforcing bars are selected as the reinforcing bars forming the main rods, and the joints of the screw reinforcements are connected by screws using a coupler, so that the operation is facilitated and quick and the connection is made robust.
Further, a step of placing reinforcing bars in front of the column steel frame and wrapping the plurality of steel bars having the through holes formed therein with vertically welded """ reinforcing steel plates and casting the concrete into the reinforcing steel plates is adopted. Since the concrete is cured at the same time as the concrete is filled into the inside of the section steel through the through holes of the section steel as well as the inside of the section steel reinforcing steel plate, the urethane steel plate is adhered to the concrete through the section steel having the through hole, Since the reinforcing steel sheet is firmly welded to the column steel plate frame which is firmly fastened to the existing column with the anchor bolts, it is possible to prevent the external impact It is possible to obtain a solid concrete column that is resistant to shaking or vibration, And at the same time, the outer surface is not dirty and a smooth steel plate reinforcing member is built, so that various effects such as a very fine appearance are exhibited in a complex manner.

Description

Technical Field [0001] The present invention relates to a steel plate frame concrete seismic strengthening method for improving the seismic performance of a building,

[0001] The present invention relates to a steel plate frame concrete seismic strengthening method in which the stability of a column is improved to improve a seismic performance of a building, and more particularly, to a steel plate frame concrete seismic strengthening method in which a steel plate frame, Of course, by joining all the left and right wall surfaces together and fixing them to the existing columns by using anchor bolts, it is possible to maximize the bonding force between the existing columns and the steel plate frames,

Screw reinforcing bars are selected as the reinforcing bars forming the main rods, and the joints of the screw reinforcements are connected by screws using a coupler, so that the operation is facilitated and quick and the connection is made robust.

Further, a step of placing reinforcing bars in front of the column steel frame and wrapping the plurality of steel bars having the through holes formed therein with vertically welded "" " reinforcing steel plates and casting the concrete into the reinforcing steel plates is adopted. Since the concrete is cured at the same time as the concrete is filled into the inside of the section steel through the through holes of the section steel as well as the inside of the section steel reinforcing steel plate, the urethane steel plate is adhered to the concrete through the section steel having the through hole, Since the reinforcing steel sheet is firmly welded to the column steel plate frame which is firmly fastened to the existing column with the anchor bolt, it is possible to prevent the external impact It is possible to obtain a solid concrete column that is resistant to shaking or vibration, The present invention relates to a steel plate frame concrete seismic retrofitting method in which the stability of a column is improved in order to improve the seismic performance of a building so that a smooth steel plate reinforcement body can be constructed without a dirty outer surface.

Existing buildings constructed before the seismic design criteria were established are expected to suffer considerable damage and collapse due to lack of seismic performance.

To solve these problems, the government is continuously conducting seismic performance evaluation and seismic reinforcement projects for public buildings.

The government 's existing buildings' seismic strengthening projects are being extensively carried out for schools, local governments' offices, hospitals, fire stations, and other important buildings that serve as shelters for disaster relief and disaster relief in the event of an earthquake.

As the main methods applied to the seismic retrofitting method of existing buildings, new methods of shear wall construction, strength and ductility reinforcement of existing members, and vibration damper application method are applied.

As a seismic retrofitting method of a conventional structure, there is a method of "seismic retrofitting method of existing reinforced concrete moment frame structure by extension of cross section and grounding" registered in Korean Patent Registration No. 10-1397800.

(A) chipping the exposed surface of the existing column of the existing reinforced concrete moment frame structure;

(B) installing a pair of longitudinal members which are coupled to the exposed surfaces of the existing columns so as to face each other in parallel in a receding direction at regular intervals and which are composed of a base plate and a fixing plate vertically extending from one end of the base plate;

(C) installing main hoops in the longitudinal direction on the front surface of the exposed surface and hoop roots around the main hoop at regular intervals;

A step (E) of forming a concrete pouring space between the exposed surface of the column and the outside of the main and hoop ropes;

(F) placing concrete in a concrete pouring space;

Forming a reinforcing portion on the outer surface of the existing column by demolding the form;

(G) a step (G) of installing a concrete pavement on the lower part of the existing pillar, installing the concrete pavement, removing the pavement after concrete pouring, and curing the pavement to restrain the lower part of the reinforcing part installed on the existing pillar,

In the step (C)

The support angle having the "L" -shaped section composed of the guide piece and the support piece extending at right angles to the guide piece is combined with the pair of longitudinal members so as to interconnect the pair of longitudinal members at regular intervals in the direction perpendicular to the pair of longitudinal members However,

The supporting piece is fixedly coupled to the longitudinal member such that the guide piece of the supporting angle and the base plate are parallel to each other so that one lower end portion of the FOUP muscle is supported on the upper portion of the supporting piece.

However, as to the structure of the reinforcing body constructed in this way,

Since the longitudinal members are not a single body but a pair, they must be screwed one by one. Since the longitudinal members are not robust due to weak binding force and the longitudinal members can not cover the left and right wall surfaces of the existing columns, Could not be prevented from being damaged,

Because there is no gap between the formwork and the main beam, there is no gap between the main beam and the main beam. Therefore, the main beams are tilted to one side rather than being fixed vertically.

In addition, in order to demould form the concrete after concrete pouring, it was necessary to separate the nut from the longitudinal member to separate the form from the longitudinal member.

In addition, when viewed from the outside, the longitudinal members are clearly distinguished from the concrete reinforcing members from the outside, resulting in a loss of appearance.

Also, since the surface of the concrete reinforcement body is directly exposed, if the external impact such as an earthquake acts relatively strongly, the surface of the concrete reinforcement body may be cracked or the concrete reinforcement body may be separated from the existing column, there was.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems,

The steel plate frame which can be mounted on the outside wall of the existing column is integrally joined to the front wall of the existing column as well as the left and right wall, and then the step of fixing the existing frame to the existing column by using the anchor bolt is adopted, The bonding force of the steel plate frame is maximized to enhance the seismic performance,

Screw reinforcing bars are selected as the reinforcing bars forming the main rods, and the joints of the screw reinforcements are connected by screws using a coupler, so that the operation is facilitated and quick and the connection is made robust.

Further, a step of placing reinforcing bars in front of the column steel frame and wrapping the plurality of steel bars having the through holes formed therein with vertically welded "" " reinforcing steel plates and casting the concrete into the reinforcing steel plates is adopted. Since the concrete is cured at the same time as the concrete is filled into the inside of the section steel through the through holes of the section steel as well as the inside of the section steel reinforcing steel plate, the urethane steel plate is adhered to the concrete through the section steel having the through hole, Since the reinforcing steel sheet is firmly welded to the column steel plate frame which is firmly fastened to the existing column with the anchor bolt, it is possible to prevent the external impact It is possible to obtain a solid concrete column that is resistant to shaking or vibration, The steel plate frame concrete seismic retrofitting method according to the present invention provides a steel plate frame concrete seismic retrofitting method with a high stability of columns in order to improve the seismic performance of a special method of constructing a smooth steel plate reinforcement body without dirt on the outer surface,

As a result, it is aimed to construct a reinforcing body with aesthetic appearance, preventing damage to existing columns, and having excellent bonding force and structurally maximizing seismic reinforcement, so that it can be used with peace of mind for a long time.

According to an aspect of the present invention, there is provided a seismic retrofit method for reinforcing a steel plate frame concrete to enhance the stability of a column to enhance seismic performance of a building,

A step (A) of drilling an anchor bolt fastening groove on the front wall surface of the existing column;

The steel plate frame welded to the inner surface of the stud bolt is closely contacted to the front wall surface where the anchor bolt fastening groove is drilled after the step (A), and the left and right wall surfaces as well as the front wall surface of the existing column are covered at the same time (B) fixing and installing the existing anchor bolts on an existing column;

A step (C) of providing a plurality of screw rods vertically to a front portion of the steel plate frame after the step (B) to form a main rope, and installing a plurality of hoops around the main rope at a predetermined height;

(D) a step (D) of wrapping the reinforcing steel with a "?" Type reinforcing steel plate welded vertically to a plurality of steel bars formed with through holes after the step (C)

After the step (D), concrete is poured into the " C "type reinforced steel plate to cure the concrete in the state of being filled into the steel through the through holes of the" E).

In order to improve the seismic performance of the building of the present invention, the anti-seismic rigid body constructed by the non-illuminated steel plate seismic retrofitting method has a steel plate frame which can be mounted on the outer wall surface of the existing column, as well as the front wall of the existing column, (B) of fixing the column to an existing column using an anchor bolt,

 It maximizes the bonding force between the existing column and the steel plate frame, thus enhancing the seismic performance.

Screw reinforcing bars are selected as the reinforcing bars forming the main bars, and the joints of the screw reinforcements are connected by screws using a coupler, so that the operation is convenient and quick, and the connection state is robust.

Further, a step of placing reinforcing bars in front of the column steel frame and wrapping the plurality of steel bars having the through holes formed therein with vertically welded "" " reinforcing steel plates and casting the concrete into the reinforcing steel plates is adopted. Since the concrete is cured at the same time as the concrete is filled into the inside of the section steel through the through holes of the section steel as well as the inside of the section steel reinforcing steel plate, the urethane steel plate is adhered to the concrete through the section steel having the through hole, Since the reinforcing steel sheet is firmly welded to the column steel plate frame which is firmly fastened to the existing column with the anchor bolt, it is possible to prevent the external impact It is possible to obtain a solid concrete column that is resistant to shaking or vibration, And at the same time, the outer surface is not dirty and a smooth steel plate reinforcing member is built, and the appearance is also very beautiful.

As described above, it is clear that the present invention is a very groundbreaking invention that can be used safely for a long period of time by constructing a reinforcing body having a great appearance, preventing damage to existing columns, and having excellent bonding force and structurally maximizing seismic reinforcement.

1 to 3 are views for explaining a non-exposed steel plate seismic strengthening method for improving seismic performance of a building of the present invention,
1 is an exploded perspective view showing the entire structure.
2A is a state in which an anchor bolt is installed on an existing column.
FIG. 2B is a state in which a steel plate frame is installed on an existing column. FIG.
Fig. 2c is a state in which reinforcing bars are laid. Fig.
Fig. 2d is a state in which a "?" Type reinforcing steel plate provided with a through hole formed therein is installed.
Fig. 2e is a state in which concrete is laid inside the "c" type reinforcing steel plate.
Fig. 3 is a cross-sectional view of a state in which concrete is poured and completed. Fig.
Figs. 4A and 4B show another embodiment of a steel plate frame. Fig.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. It is to be understood that the exemplary embodiments described below are provided for illustrative purposes only, and that the present invention may be embodied with various modifications and alterations. In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention. In addition, the attached drawings are not drawn to scale in order to facilitate understanding of the invention, but the dimensions of some of the components may be exaggerated.

In order to improve the seismic performance of the building, the steel plate frame concrete seismic retrofitting method which has improved the stability of the column has a structure of a concrete reinforced body having a maximized appearance and preventing the damage of the existing column, I would like to.

An embodiment of a non-exposed steel plate seismic strengthening method for improving the seismic performance of the present invention will be described in detail with reference to FIGS. 1 to 3.

(Example 1)

≪ Step (A) >

The anchor bolt fastening groove 11 is formed in the front wall surface of the existing column 10.

≪ Step (B) >

After the step (A), the steel plate frame 20 welded to the inner surface of the stud bolt 40 is closely adhered to the front wall of the anchor bolt fastening groove 11 at predetermined intervals.

At this time, after integrally joining the front and rear wall surfaces 11a and 11c of the existing column 10 so as to cover the left and right side wall surfaces 11b and 11c at one time, a plurality of anchor bolts 30 are used to fix the existing column 10 Fix it.

≪ Step (C) >

After the step (B), a plurality of screw rods 51 are vertically installed in the front part of the steel plate frame 20 to form the main rope 50, and a plurality of hoops 60 ) Is installed and reinforcing steel is installed.

≪ Step (D) >

After the step (C), the reinforcing steel plates 70 are welded by vertically welding a plurality of steel bars 71 formed with through holes 71a, .

≪ Step (E) >

After the step (D), the concrete 80 is poured into the " C "type reinforced steel plate 70 so as to penetrate through the through holes 71a of the & The concrete 80 is cured in a state where the concrete 80 is filled into the inside of the concrete block 71 at the same time.

(Example 2)

≪ Step (A) >

The anchor bolt fastening groove 11 is formed in the front wall surface of the existing column 10.

≪ Step (B) >

After the step (A), the steel plate frame 20 welded to the inner surface of the stud bolt 40 is closely adhered to the front wall of the anchor bolt fastening groove 11 at predetermined intervals.

At this time, after integrally joining the front and rear wall surfaces 11a and 11c of the existing column 10 so as to cover the left and right side wall surfaces 11b and 11c at one time, a plurality of anchor bolts 30 are used to fix the existing column 10 Fix it.

≪ Step (B-1) >

After the step (B), one end of the plurality of stud bolts 40 is welded and fixed to the front surface of the steel plate frame 20.

≪ Step (C) >

After the step (B-1) is performed, a plurality of screw rods 51 are vertically installed in the front part of the steel plate frame 20 to form the main rope 50, and a plurality of hoops (60) is installed to reinforce the steel.

≪ Step (D) >

After the step (C), the reinforcing steel plates 70 are welded by vertically welding a plurality of steel bars 71 formed with through holes 71a, .

Here, the joint is shown in the drawing, but the joint is welded, so that it is not actually seen.

≪ Step (E) >

After the step (D), the concrete 80 is poured into the " C "type reinforced steel plate 70 so as to penetrate through the through holes 71a of the & The concrete 80 is cured in a state where the concrete 80 is filled into the inside of the concrete block 71 at the same time.

In the present invention, in the case of the main rope 50, the joint portion of the threaded reinforcing bar 51, which is formed of the threaded reinforcing bar 51 and cut to a predetermined length, is connected and installed using a coupler 55.

The present invention is also characterized in that after the steps of the first and second embodiments are carried out in the same manner as in the first and second embodiments described above, an epoxy (or an epoxy resin) is interposed between the steel plate frame 20 and the front wall surface 11a and the left and right wall surfaces 11b and 11c of the existing column 10 Lt; RTI ID = 0.0 > 12). ≪ / RTI >

In this way, not only the adhesion force is increased but also the space is filled, thereby preventing corrosion of the inner space and improving durability.

Reference numerals 20a and 70a denote joint portions, and reference numeral 22 denotes a closing member.

The steel plate frame 20 used in the present invention is formed by welding a plurality of flat plate plates 21 to simultaneously cover the front wall face 11a and the left and right wall faces 11b and 11c of the existing column 10 Or may be integrally extrusion-molded so as to enclose the front wall face 11a and the left and right wall faces 11b and 11c of the existing column 10 at the same time.

Meanwhile, as shown in FIGS. 4A and 4B, the anchor bolt insertion hole 20b formed in the steel plate frame 20 is formed as an oblong slot, It is very convenient that the anchor bolt fastening groove 11 can be drilled and the anchor bolt 30 can be fastened at a position avoiding the interference of the reinforcing bars including the main body and the hoop.

In addition, the steel plate frame 20 and the "U" -shaped steel plate 70 used in the present invention are not only improved in durability, such as corrosion resistance and corrosion resistance, You can even make a variety of colors.

In order to improve the seismic performance of the building of the present invention as described above, the steel plate frame concrete seismic strengthening method having improved column stability has a structure in which the steel plate frame 20 is brought into close contact with the outer wall surface of the existing column 10, The anchor bolts 30 are integrally fixed so as to cover the front wall face 11a of the column 10 as well as the left and right wall faces 11b and 11c and then fixed to the existing column 10 using a plurality of anchor bolts 30 The bonding force between the existing column 10 and the steel plate frame 20 is maximized to enhance the seismic performance and prevent the covered portion of the existing column 10 from being damaged.

In the case of the main rope 50, the joint of the threaded reinforcing bar 51, which is made of the threaded reinforcing bar 51 and cut to a predetermined length, is connected by using the coupler 55, The condition is very solid.

On the other hand, reinforcing bars are placed in front of the steel plate frame 20 and the reinforcing steel plate 70 is wrapped with a reinforcing steel plate 70, and a through hole 71a is formed on the inner surface of the reinforcing steel plate 70 If the concrete 80 is placed in the "U" -shaped steel plate 70 because the plural sections 71 are vertically welded,

Since the concrete 80 is cured in the state of being filled in the inside of the section steel 71 through the through hole 71a of the section steel 71 as well as the inside of the " The reinforcing steel plate 70 is attached to the concrete 80 with a strong binding force through the section steel 71 formed with the through holes 71a so that the reinforcing steel plate 70 and the concrete 80 are separated from each other according to the thermal expansion rate deviation Type reinforcement steel plate 70 is firmly welded to the steel plate frame 20 which is firmly fastened to the existing column 10 by the anchor bolts 30, A strong concrete column, that is, an advanced elastic body, can be obtained, and the seismic strengthening can be reliably performed.

In addition, at the same time, the outer surface is formed in a smooth non-protruding shape without being dirty, and the appearance is very good.

Although the present invention has been described with reference to the exemplary embodiments and the drawings, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: existing column 11: anchor bolt fastening groove
11a: front wall surface 11b: left wall surface
11c: right wall surface 12: epoxy
20: steel plate frame 20a: anchor bolt insertion hole
21: flat plate 22: closing member
30: Anchor bolt 40: Stud bolt
50: main stem 51: screw bar
55: Coupler 60: Hoop
70: "c" type reinforced steel plate 71:
71a: through hole 80: concrete

Claims (7)

In order to increase the existing column 10 to provide an earthquake-proof reinforcement,
(A) puncturing the anchor bolt fastening groove (11) on the front wall surface of the existing column (10);
After the step (A) is performed, the steel plate frame 20 welded to the inner surface of the stud bolt 40 is closely contacted to the front wall of the anchor bolt fastening groove 11, (B) fixing the left and right side wall surfaces 11b and 11c to the existing column 10 by integrally joining the left and right side walls 11b and 11c as well as a plurality of anchor bolts 30;
After the step (B), a plurality of screw rods 51 are vertically installed in the front part of the steel plate frame 20 to form the main rope 50, and a plurality of hoops 60 (C) installing a reinforcing steel bar;
After the step (C), the reinforcing steel plates 70 are welded by vertically welding a plurality of steel bars 71 formed with through holes 71a, (D) welding and setting the welding member
After the step (D), the concrete 80 is poured into the " C "type reinforced steel plate 70 so as to penetrate through the through holes 71a of the & (E) curing the concrete 80 in a state where the concrete 80 is filled into the inside of the concrete frame 71. In order to improve the seismic performance of the building, the steel frame frame concrete seismic strengthening method . In addition to the existing columns 1,
(A) forming an anchor bolt fastening groove (11) in the front wall of the existing column (1);
After the step (A) is performed, the steel plate frame 20 is brought into close contact with the front wall surface where the anchor bolt fastening groove 11a is drilled, and the front wall surface 11a of the existing column 10 as well as the left and right wall surfaces 11b (B) fixing and installing the anchor bolts (30) on the existing column (10) by integrally joining the anchoring bolts (11a, 11b) and the anchor bolts (30);
(B-1) welding and fixing one end of a plurality of stud bolts 40 to the front surface of the steel plate frame 20 after the step (B) is performed;
After the step (B-1) is performed, a plurality of screw rods 51 are vertically installed in the front part of the steel plate frame 20 to form the main rope 50, and a plurality of hoops (C) installing a reinforcing bar (60) to reinforce the reinforcing bars;
After the step (C), the reinforcing steel plates 70 are welded by vertically welding a plurality of steel bars 71 formed with through holes 71a, (D) welding and setting the welding member
After the step (D), the concrete 80 is poured into the " C "type reinforced steel plate 70 so as to penetrate through the through holes 71a of the & (E) curing the concrete 80 in a state where the concrete 80 is filled into the inside of the concrete frame 71. In order to improve the seismic performance of the building, the steel frame frame concrete seismic strengthening method . 3. The method according to claim 1 or 2,
The main rope (50) is made up of a threaded reinforcing bar (51), and the joints of the threaded reinforcing bars (51) cut to a predetermined length are connected to each other by using a coupler (55) Steel frame frame concrete seismic strengthening method with improved stability of columns. 3. The method according to claim 1 or 2,
The epoxy 12 is injected between the steel plate frame 20 and the front wall face 11a and the left and right wall faces 11b and 11c of the existing column 10 after performing the entire steps according to the first or second aspect of the present invention Wherein the reinforcing member is provided with a reinforcing member for reinforcing the reinforced concrete member. 3. The method according to claim 1 or 2,
The steel plate frame (20)
A plurality of flat plates 21 are welded so that the front wall face 11a and the left and right wall faces 11b and 11c of the existing pillar 10 are simultaneously wrapped to enhance the seismic performance of the building. Reinforced concrete frame seismic strengthening method. 3. The method according to claim 1 or 2,
The steel plate frame (20)
The anchor bolt insertion hole 20b is formed as a slanted long hole,
The anchor bolt fastening groove 11 is formed at a position to avoid the interference of the reinforcing bars including the main rope and the hoop buried in the existing column and the anchor bolt 30 can be tightened. Reinforced concrete frame seismic strengthening method. 3. The method according to claim 1 or 2,
The steel plate frame 20 and the "?" -Shaped steel plate 70,
And a corrosion-resistant and acid-resistant coating material is applied to at least the outer surface of the steel plate frame to enhance the seismic performance of the building.

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