KR101916297B1 - Method of aseismic reinforcement for existing building structure - Google Patents

Abstract

The present invention relates to a seismic resistance reinforcement method for an existing building. More specifically, the present invention relates to the seismic resistance reinforcement method for an existing building, wherein seismic resistance of an existing building is reinforced with a simple process by using a first T-shaped steel plate coupled to columns of the existing building and having first diaphragm and a second T-shaped steel plate coupled to the first T-shaped steel plate and having second diaphragm. Accordingly, constructability can be improved, and reinforcement and connection rigidity with a beam can be increased by the diaphragm.

Description

METHOD OF ASEISMIC REINFORCEMENT FOR EXISTING BUILDING STRUCTURE [0002]

The present invention relates to an earthquake-proof reinforcement method for a column of an existing building, and relates to an earthquake-proof reinforcement method for an existing building, which can improve the robustness of construction, reinforcement, and connection of the beam.

In general, the design of various buildings is accompanied by earthquake-resistant design that can withstand earthquakes. Since applying the earthquake-resistant design regulations in the Building Code of 1990, the earthquake-related regulations have been revised .

However, the buildings constructed prior to the introduction of the seismic design regulations are not designed and constructed without considering the effects of the earthquake, and the seismic performance is not exhibited properly due to the deterioration of the damage due to the increase in the number of public years.

In other words, although the earthquake that has been frequently occurring in neighboring countries in recent years and the huge damage caused by the people and property are not safe from earthquakes in Korea, more than 80% This can be said to be the case, especially in the case of school buildings.

Therefore, the seismic retrofitting method is applied to the existing buildings which are not considered or have insufficient seismic design.

Unlike the seismic design method applied to new buildings, the seismic retrofit method requires reinforcement to existing buildings or facilities, so consideration should be given to consideration of usability, consideration of economical efficiency, construction workability, and specificity of existing buildings and facilities It is necessary to select an appropriate construction method considering existing structures and facilities. There are two methods of reinforcing seismic reinforcement of existing buildings and facilities: a method of increasing stiffness, a method of increasing stiffness, or a method of simultaneously increasing stiffness and ductility.

As a method of increasing the stiffness, there is a method of covering a stiffener to a column or a beam of an existing building and a method of reinforcing the existing structure by increasing the sectional area by using the same member. Patent Documents 1 to 10-1065469, Patent Documents 2 and 10-2011-0018251, and Patent Document 3: Japanese Patent Application Laid-Open No. 2007-138472 .

Specifically, Japanese Patent Application Laid-Open No. 10-1065469 discloses a method of covering a column or a beam of existing buildings with a reinforcing material. As shown in FIGS. 1A and 1B, Or the steel plate 200 surrounding the beam is fixed to the column 100 by the anchor bolts 300 and the space between the steel plate 200 and the column 100 is filled with the epoxy resin 400.

However, the conventional seismic retrofitting method as described above has an effect of improving the strength, but it is not effective in increasing the rigidity. Here, the 'stiffness' is a numerical value of the degree to which the material resists a given deformation when the deformation is applied to the material from the outside. In order to reinforce the earthquake-proof performance, There is a problem in that the seismic performance can not be properly reinforced because there is only an effect of enhancing the strength but not an effect of increasing the stiffness.

Meanwhile, Japanese Unexamined Patent Application Publication No. 10-2011-0018251 discloses a method of reinforcing an existing building by increasing the cross-sectional area by using the same member. As shown in FIG. 2, the existing concrete structure 1, Reinforcing steel frame 4 is provided with one or two rows of stud bolts 3 and a die is installed to form a high strength mortar 5, Is installed.

However, since the above-mentioned conventional techniques are required to include the work of installing the formwork in the seismic strengthening method, the process is complicated and the air is increased, and the cost of construction is also increased due to consumption of separate materials such as formwork there was.

On the other hand, Japanese Patent Application Laid-Open No. 2007-138472 (Patent Document 3) discloses a technique in which a reinforcing main body 20 is installed on an existing column and reinforced by filling the concrete 32 as shown in Fig. 3 .

However, the above-described conventional techniques have a problem in that the reinforcing strength is insufficient, and the existing pillars and the reinforcement 20 are not properly deposited. As a result, the integrity is reduced and the reinforcing effect is not realized properly .

Patent Document 1: Korean Patent Registration No. 10-1065469 " Earthquake-resistant reinforcement structure using a non-protruding steel plate in which a circular wing and a through hole are formed in a column or a beam of a building, and a construction method thereof & Patent Document 2: Korean Patent Laid-Open Publication No. 10-2011-0018251 " Seismic Retrofitting Structure and Joining Method for Seismic Retensioning " Patent Document 3: Japanese Unexamined Patent Application Publication No. 2007-138472 " Seismic Retrofit Method for Existing Buildings &

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a diaphragm structure, which comprises a first T-shaped steel plate coupled to a column of an existing building and including a first diaphragm, 2 T-shaped steel plates are used to implement seismic reinforcement of existing structures by a simple process, and not only the workability is excellent, but also the reinforcing property and the connection firmness between the diaphragms can be improved.

In the present invention, in the seismic retrofitting method for existing buildings, the first horizontal plate 10a, the first vertical plate 10b protruding from the first horizontal plate 10a, and the beam 200 are installed A step (S100) of installing a first T-shaped steel plate (10) made of a first diaphragm (10c) installed at a position corresponding to the position of the first diaphragm (10c) on one surface of a column (100) of an existing building; A second vertical plate 20b protruding from the second horizontal plate 20a and a second diaphragm 20b installed at a position corresponding to a position where the beam 200 is to be installed, 20c of the second T-shaped steel plate 20 and the second T-shaped steel plate 20 of the second T-shaped steel plate 20 in combination with the first T-shaped steel plate 10, A step S200 of joining the first vertical plates 10b of the steel plate 10 with each other; And connecting the beams 200 to each other (S300). The earthquake-proof reinforcement method of existing buildings is a solution to the problem.

The first diaphragm 10c is installed on either the left or right side of the first vertical plate 10b and the second diaphragm 20c is disposed on the left or right side of the second vertical plate 20b It is preferable that the first diaphragm 10c and the second diaphragm 20c are disposed on opposite sides of each other.

In step S300, the beam 200 is connected to the first diaphragm 10c or the second diaphragm 20c.

The present invention can provide an excellent seismic performance by increasing the stiffness as well as the proof strength of an existing building column. Especially, it is very convenient to use the structure, and the diaphragm has an effect of improving the reinforcing property and the connection rigidity have.

1 to 3 are views showing a conventional seismic retrofitting method for existing buildings
FIG. 4 is a flow chart showing an existing seismic retrofitting method according to the present invention.
5 is a plan view and a perspective view of each process of the seismic retrofitting method of existing buildings according to the present invention.

It should be noted that the present invention relates to a seismic retrofitting method for an existing building, and only the parts necessary for understanding the technical construction of the present invention will be described, and the description of other parts will be omitted so as not to disturb the gist of the present invention.

The above objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

FIG. 4 is a process flow chart showing an existing seismic retrofitting method according to the present invention, and FIG. 5 is a plan view and a perspective view showing an existing seismic retrofitting method according to the present invention.

4 and 5, the first T-shaped steel plate 10 is installed in step S100, the second T-shaped steel plate 20 is installed in step S200, and the beam 200 is connected in step S300 ).

4 and 5A, step S100 is a step of installing a first T-shaped steel plate 10 on a pillar of an existing building, selecting all the existing buildings or some positions to be reinforced, And the first T-shaped steel plate 10 is installed.

The first T-shaped steel plate 10 includes a first horizontal plate 10a, a first vertical plate 10b and a first diaphragm 10c. The first vertical plate 10b includes a first water- And is vertically protruded from the flat plate 10a. Meanwhile, the first diaphragm 10c is installed at a position corresponding to a position where the beam 200 is to be installed, and is disposed on only one side of the left or right side with respect to the first vertical plate 10b, Like steel plate 20 so as to be positioned opposite to the second diaphragm 20c.

As shown in FIGS. 4 and 5B, the second T-shaped steel plate 20 is installed on the first T-shaped steel plate 10, and the second T- A second vertical plate 20b and a second diaphragm 20c and the second vertical plate 20b is vertically protruded from the second horizontal plate 20a. Meanwhile, the second diaphragm 20c is installed at a position corresponding to a position where the beam 200 is to be installed, and is disposed on only one side of the left or right side of the second vertical plate 20b, Shaped steel plate 10 on the opposite side to the first diaphragm 10c.

The second vertical plate 20b of the second T-shaped steel plate 20 and the first vertical plate 10b of the first T-shaped steel plate 10 are coupled with each other to form the first T- The first diaphragm 10c of the first T-shaped steel plate 10 and the second diaphragm 20c of the second T-shaped steel plate 20 are combined to form a single diaphragm And is coupled to a position corresponding to a position where the beam 200 is to be installed.

As shown in FIGS. 4 and 5C, the step S300 may include connecting the beam 200 to the first diaphragm 10c or the second diaphragm 10c according to the installation position of the beam 200, 20c, and the method of connecting the beam 200 can be variously known, and the diaphragm may be used as it is or may be filled with concrete.

Meanwhile, various known methods such as welding, bolt or integrated molding can be applied to the 'installation', 'coupling', and 'connection' described above, and the construction environment or the construction target And can be selectively applied.

Accordingly, the present invention relates to a first T-shaped steel plate 10 coupled to a column 100 of an existing building and including a first diaphragm 10c, and a second T-shaped steel plate 10 coupled to the first T- By using the second T-shaped steel plate 20 including the diaphragm 20c to implement the seismic retrofit of the existing structure by a simple process, not only the workability is excellent, but also the reinforcing property and the connection rigidity .

The present invention is not limited to the above-described embodiments and the accompanying drawings, and various changes, modifications and variations may be made without departing from the scope of the present invention. Will be apparent to those of ordinary skill in the art.

100: column 200: beam
10: first T-shaped steel plate 10a: first horizontal plate
10b: first vertical plate 10c: first diaphragm
20: second T-shaped steel plate 20a: second horizontal plate
20b: second vertical plate 20c: second diaphragm

Claims (3)

In seismic retrofitting of existing buildings,
A first vertical plate 10b protruding from the first horizontal plate 10a and a first diaphragm 10b installed at a position corresponding to a position where the beam 200 is to be installed, 10c) on one side of the column 100 of the existing building (S100);
A second vertical plate 20b protruding from the second horizontal plate 20a and a second diaphragm 20b installed at a position corresponding to a position where the beam 200 is to be installed, 20c of the second T-shaped steel plate 20 and the second T-shaped steel plate 20 of the second T-shaped steel plate 20 in combination with the first T-shaped steel plate 10, A step S200 of joining the first vertical plates 10b of the steel plate 10 with each other; And
And connecting the beam 200 (S300)
The first diaphragm 10c is installed on only one side of the left or right side of the first vertical plate 10b and the second diaphragm 20c is disposed on the left or right side of the second vertical plate 20b The first diaphragm 10c and the second diaphragm 20c are disposed on opposite sides of the first diaphragm 10c so that the second vertical plate 20b of the second T- The first diaphragm 10c of the first T-shaped steel plate 10 and the second diaphragm 20c of the second T-shaped steel plate 20 are connected to each other when the first vertical plates 10b of the first and second T- Is coupled to a position corresponding to a position where the beam 200 is to be installed while forming one diaphragm,
Wherein the beam 200 is connected to the first diaphragm 10c or the second diaphragm 20c in step S300. delete delete

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