KR101611820B1 - Construction Method for Building Seismic Reinforcement and Building Remodeling Construction Method - Google Patents

Abstract

Disclosed is a method for the seismic reinforcement and remodeling of a building. A front surface of a pillar of a remodeling target building, an outer front surface of a crossing part between the pillar and an upper beam, and an outer front surface of a crossing part between the pillar and a lower beam are made rough. A fixing member is installed on an outer front surface of a crossing part between the front surface of the pillar and the upper beam of the pillar and an outer front surface of a crossing part between the pillar and the lower beam. In order to install a front end wall on the front surface of the pillar, a rebar is assembled with the fixing member, a cast is installed, and concrete is placed and cured. Moreover, the present invention is able to be formed by building the seismic reinforcement front end wall by using a PC panel in order to reduce a construction period and secure the quality of the front end wall. According to the present invention, through the simple and quick construction, excellent transverse support reinforcement (seismic reinforcement) can be provided and a transverse support force of an existing old rebar concrete and steel frame structure can be increased.

Description

Technical Field [0001] The present invention relates to a seismic reinforcement and a remodeling construction method,

The present invention relates to a method of constructing a seismic strengthening and remodeling structure, and more particularly, to a method of constructing a seismic strengthening and remodeling structure capable of achieving superior lateral support reinforcement through simple and rapid construction.

Although earthquakes did not cause serious damage or collapse of buildings in Korea, the incidence of earthquakes more than 3 in magnitude is increasing recently.

According to the current earthquake disaster countermeasures law, seismic design for public buildings, private hospitals and school buildings is mandatory. However, the ratio of public facilities and civilian hospitals, which are now subject to seismic retrofitting, 37.3% in 2011 and 38.4% in 2012.

In addition, the buildings before the earthquake disaster countermeasures law should be reinforced by public institutions as the main body of management, but due to the budget problem, the public buildings in the nation are not properly reinforced.

Meanwhile, the toggle vibration damper method, the window type vibration damper method, and the double steel tube buckling reinforcement brace method have been mainly used in the earthquake-proof reinforcement construction of domestic schools according to the prior art.

However, the above-mentioned methods have a problem in that they are based on a vibration-damping design which is not used in Korea, and the construction period is long and the earthquake-proofing cost of the building is required to be at least 200 million Won. And the like.

Specifically, the toggle vibration damping method and the dual steel tube buckling reinforcement brace method block the view of the inside user by hiding the window frame of the steel frame installed outside the building and change the school building into a space like a prison after construction.

In addition, the window-type vibration damping damper method reduces the height of the existing window opening by 400 ~ 500mm, paints the iron plate and constructs it. The iron plate reduces the opening remarkably and distinguishes the appearance of the adjacent classroom. .

Accordingly, it is an object of the present invention to provide a method of constructing a seismic strengthening and remodeling structure capable of achieving excellent transverse support reinforcement through simple and rapid construction.

According to another aspect of the present invention, there is provided a method of constructing an earthquake-proof reinforcing and remodeling structure, the method comprising the steps of: (a) forming an outer front surface of a column of a building to be remodeled, And a fixing member is installed on an outer front surface of an intersection of the upper surface of the column and the outer surface of the column at the intersection with the lower surface of the column, ; (b) installing a PC panel in a layer on the front surface of the column; (c) installing an external reinforcing bar protruding to the upper and lower portions of the PC panel and an assembling reinforcing bar binding the fixing member in the upper and lower spaces of the PC panel installed in the respective layers; (d) installing a mold in the upper and lower spaces of the PC panel installed for the respective layers; And (e) casting the concrete into the mold.

Preferably, the step (a) further includes a step of constructing a lower foundation reinforcement of a column of a building to be remodeled.

In addition, the step (b) further includes the step of installing a reinforcing bar for reinforcing the lower base of the column, an outer reinforcing bar projecting to the lower portion of the PC panel, and an assembling reinforcing bar for binding the fixing member.

(A) an outer front surface at a crossing portion between a front surface of a column of a building to be remodeled and a top beam of the column, and a bottom surface of the column And an outer front surface at an intersection of the front surface of the column and the upper beam of the column and an intersection between the front surface of the column and the lower beam of the column, Providing a fixation member on an external front surface of the site; (b) assembling a reinforcing bar and installing a mold on the fixing member for installing a shear wall on a front surface of the column; And (c) casting the concrete onto the mold.

Preferably, the step (a) further includes a step of constructing a lower foundation reinforcement of a column of a building to be remodeled.

In addition, in the step (b), the assembled reinforcing bars may be coupled to the reinforcing bars for reinforcing the lower bases of the columns, and the field-cast concrete may be poured including the joint portions of the reinforcing bars for reinforcing the lower reinforcing bars .

According to the present invention, the transverse support reinforcement (seismic reinforcement) with excellent performance can be calculated by simple and rapid construction, and the effect of increasing the lateral support force of the existing aged reinforced concrete and steel structure can be obtained.

In addition, according to the present invention, it is possible to further increase the lateral resistance of the beam-column of the building to be remodeled.

In addition, according to the present invention, it is possible not only to remarkably improve the workability and the construction period in the earthquake-proof reinforcement construction of the building, but also to significantly reduce the construction cost.

In addition, according to the present invention, construction can be carried out on weekends and holidays due to its simple construction characteristics, and construction can be carried out even during the semester in the case of a school building.

In addition, according to the present invention, not only a functional damage to an existing building such as appearance and mining, but also a remodeling effect can be achieved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flow chart illustrating a method of building earthquake-proof reinforcement and remodeling according to an embodiment of the present invention;
FIG. 2 is a flowchart illustrating a method of constructing a building for earthquake-proof reinforcement and remodeling according to another embodiment of the present invention.
3 is a view showing a frame structure of a building subject to construction in a method of constructing a seismic strengthening and remodeling building according to the present invention, and Fig.
4 to 12 are views showing a process of implementing a method of building earthquake-proof reinforcement and remodeling according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 is a flowchart illustrating a method of constructing a building for seismic strengthening and remodeling according to an embodiment of the present invention. Referring to FIG. Hereinafter, with reference to FIG. 1, a construction seismic strengthening and remodeling construction method according to an embodiment of the present invention will be described.

3, a framework structure including a base 300, a column 400, and upper and lower beams 500 of a building subject to construction of a seismic strengthening and remodeling construction method according to the present invention is disclosed.

First, the constructor installs the base reinforcement bars 350 on the foundation 300 as shown in FIG. 4 (S110). The constructor then applies a roughening treatment to the outer front surface of the intersection of the lower beam 500 and the first pillar 400 of the first pillar 400 adjacent to the foundation 300, The fixing member 450 is inserted and installed on the front surface of the lower beam 500 (S120).

In the meantime, the present invention can utilize the existing foundation 300 structure as described above, but it is also possible to reinforce the existing foundation 300 by constructing a microfilm on the surrounding ground of the existing foundation 300 will be.

5, the constructor applies a roughening treatment to the outer front surface of the intersection of the upper beam 500 and the first-layer column 400 of the first-layer pillar 400, 450 are installed in the column 400 and insertion holes 410 are formed in the column 400 so that a fixing member 450 for mounting the PC panel 600 can be inserted.

6, a first floor PC panel 600 is installed on the front surface of the first floor pillar 400, and a fixing hole 630 formed in the PC panel 600 is inserted into the pillar 400 And an insertion hole 410 formed in a front surface of the main body 500. [

6, the PC panel 600 includes an outer reinforcing bar 650 protruding from upper and lower portions of the PC panel 600, 500 and the fixing member 450, respectively.

The constructor then installs a fixing member 450 such as a bolt to penetrate the fixing hole 630 and the insertion hole 410 at the same time and then inserts the mortar 635 into the fixing hole 630 as shown in FIG. The PC panel 600 is fixed to the column 400 (S130).

8, the constructor includes an outer reinforcement 650 protruding to the lower portion of the PC panel 600 and a fixing member 450 installed on the lower beam 500 of the column 400, And a mold for placing mortar (or concrete) is installed in a spacing space between the lower portion of the PC panel 600 and the foundation 300 (S140).

Next, the constructor completes the construction of the joint block 670 at the intersection of the column 400 and the beam 500, as shown in FIG. 9, through the step of placing mortar (or concrete) and curing into the mold (S150).

After the installation of the PC panel 600 in the first floor pillar 400 and the construction of the coupling block 670 in the lower beam 500 of the first pillar 400 are completed as described above, A two-layer PC panel 600 is installed on the two-pillar 400. The method of installing the two-layer PC panel 600 is the same as the method of installing the one-layer PC panel 600 described above (S160).

Specifically, the constructor performs rough surface treatment on the outer front surface of the intersection of the upper beam 500 and the two-layer column 400 of the two-layer column 400, and a fixing member 450 is installed And an insertion hole 410 is formed in the column 400 so that a fixing member 450 for mounting the PC panel 600 can be inserted.

A second floor PC panel 600 is installed on the front surface of the second floor pillar 400 and a fixing hole 630 formed in the PC panel 600 is formed on the front surface of the pillar 400 And the outer reinforcing bars 650 of the PC panel 600 protruding from the upper and lower portions of the PC panel 600 are installed on the upper portion of the two-pillar 400, (450) installed in the upper beam (500) and the lower beam (500), respectively.

The constructor then installs a fixing member 450 such as a bolt to penetrate through the fixing hole 630 and the insertion hole 410 at the same time and then inserts the mortar 635 into the fixing hole 630 as shown in FIG. The two-layer PC panel 600 is fixed to the two-ply column 400.

11, the constructor includes an outer reinforcing bar 650 protruded to the upper portion of the one-layer PC panel 600, an outer reinforcing bar 650 protruding to the lower portion of the two-layer PC panel 600, A PC panel 600 and a two-layer PC panel 600. The first and second PC panels 600 and 600 are connected to each other by a reinforcing bar 690, (Or concrete) is placed in a spaced-apart space between the lower portions of the upper and lower portions (S170).

The builder then places the mortar (or concrete) in the mold and cures the mortar (or concrete) to form the beam 500 between the first pillar 400 and the second pillar 400 as shown in FIG. 12, The construction of the joint block 670 at the intersection is completed (S180).

The PC panel 600 is stacked on the floor 400 of each floor so that the floor panel 400 and the PC panel 600 of the PC panel 600 are stacked on each other, An assembling reinforcing bar 690 which binds an outer reinforcing bar 650 protruding to the upper portion of the upper block 600 is installed and the joining block 670 in the upper beam 500 of the last layer is formed by placing and curing mortar (or concrete) .

As described above, according to the earthquake-proof reinforcement and remodeling construction method according to one embodiment of the present invention, the construction period and construction cost can be drastically reduced through on-site installation of the PC panel 600, The remodeling effect of the existing building can be achieved through the PC panel 600 having the shape, color and shape.

The PC panel 600 is installed on the front surface of the column 400 and the PC panel 600 is installed on the front surface of the column 400 and the beam 500. In this case, By forming the coupling block 670 on the outer front surface of the intersection, the beam-column stiffness of the building to be remodeled can be drastically increased.

In addition, according to the method for building earthquake-proof reinforcement and remodeling according to an embodiment of the present invention, the PC panel 600 is installed and constructed around the vertical direction of the front surface of the column 400, So that the appearance and function of the apparatus can be hardly damaged.

FIG. 2 is a flowchart illustrating a method of constructing a seismic strengthening and remodeling structure according to another embodiment of the present invention. The method for building earthquake-proof reinforcement and remodeling according to another embodiment of the present invention differs from that of the method for building earthquake-proof reinforcement and remodeling according to an embodiment of the present invention shown in FIG. 1 without using the PC panel 600, A front end wall of the column 400 is provided.

Hereinafter, with reference to FIG. 2, a description will be made of a method of constructing a building for earthquake-proof reinforcement and remodeling according to another embodiment of the present invention.

First, the constructor installs the base reinforcing steel bars 350 on the foundation 300 as shown in FIG. 4 (S210). The constructor then applies rough surface treatment to the outer surface of the intersection of the lower beam 500 of the column 400 adjacent to the foundation 300 and the column 400 and applies a surface treatment to the fixing member 450 are inserted and installed on the front surface of the lower beam 500 (S230).

In the meantime, the present invention can utilize the existing foundation 300 structure as described above, but it is also possible to reinforce the existing foundation 300 by constructing a microfilm on the surrounding ground of the existing foundation 300 will be.

5, the constructor applies a roughening treatment to the outer front surface of the intersection of the upper beam 500 and the first-layer column 400 of the first-layer pillar 400, 450 are installed in the column 400 and the insertion hole 410 is formed in the column 400 so that the fixing member 450 for assembling the reinforcing bars inside the shear wall can be inserted.

The constructor then inserts the insertion hole 410 into the fixing member 450 and then places the inner steel bar in the front surface of the column 400 so as to be engaged with the fixing member 450 installed in the insertion hole 410 A fixing member 450 provided on the lower reinforcing bar 500 and an assembling reinforcing bar 690 connecting the reinforcing bars 350 to the foundation reinforcing bar 350 are installed and fixed to the inner reinforcing bars and the upper beam 500 An assembled reinforcing bar 690 connecting the member 450 is installed (S250).

Next, the constructor includes a reinforcing bar 350 for reinforcing the base, a fixing member 450 provided for the lower beam 500, and an assembled reinforcing bar 690 and an inner reinforcing bar 690 disposed on the front surface of the bar 400, A fixing member 450 provided on a front surface of the column 400 and an assembling reinforcing bar 690 and a fixing member 450 provided on the upper beam 500 and an assembling reinforcing bar 690 (S270), and the concrete is placed and cured in the formwork to complete the construction of the shear wall (S270).

Meanwhile, the constructor can sequentially construct the shear walls on the outer surface of the column 400 and the outer surface of the intersection of the column 400 and the beam 500 in the above-described manner.

As described above, according to the method of constructing the earthquake-proof reinforcement and remodeling structure according to another embodiment of the present invention, the construction period and the construction cost can be dramatically improved by putting the shear wall on the front surface of the column 400 Not only can the shear wall be constructed on site to have various shapes, and the shear walls can be provided with various colors and shapes through the finishing work, so that the remodeling effect of the existing building can be achieved.

In addition, according to another embodiment of the present invention, the front end of the column 400 is installed with a shear wall, and an outer portion of the intersection of the column 400 and the beam 500 And the front-end wall is integrally constructed as a whole, the beam-column stiffness of the building to be remodeled can be drastically increased.

In addition, according to another embodiment of the present invention, the installation and construction of the shear wall around the vertical direction in the front surface of the column 400 is performed, It is hardly damaged.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, 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 present invention.

300: foundation, 350: basic reinforcing steel,
400: column, 410: insertion hole,
450: fixing member, 500: upper beam, lower beam,
600: PC panel, 630: Fixing hole,
650: outer reinforcement, 670: joint block,
690: rebar reinforced.

Claims (6)

(a) an outer front surface of an intersection of a column of a building to be remodeled with an upper beam and an outer front surface of a crossing portion of the column lower beam, , A step of installing a fixing member on an outer front surface of a crossing portion of the column and a crossing portion of a lower beam of the column;
(b) forming an insertion hole (410) in a front surface of the column;
(c) a PC panel is installed on the front surface of the column, and a fixing hole (630) penetrating the PC panel is formed in the insertion hole (410) formed on the front surface of the column, A step of installing the cover to overlap with the cover;
(d) installing a fixing member to penetrate both the fixing hole (630) in the PC panel and the insertion hole (410) in the column;
(e) placing the mortar in the fixing hole (630) in the PC panel;
(f) installing an outer reinforcing bar protruding to the upper and lower portions of the PC panel and an assembling reinforcing bar binding the fixing member installed in the step (a), in a vertically spaced space of the PC panel provided for each layer;
(g) installing molds in upper and lower spaces of the PC panel installed for the respective layers; And
(h) placing the concrete in the mold
A method of constructing earthquake - proof reinforcement and remodeling.
The method according to claim 1,
Before the step (a)
Further comprising the step of constructing a lower foundation reinforcement of a column of a building to be remodeled.
3. The method of claim 2,
In the step (c)
Further comprising installing a reinforcing bar for reinforcing the lower base of the column, an outer reinforcing bar projecting to the lower portion of the PC panel, and an assembling reinforcing bar binding the fixing member.

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