KR100956974B1 - Building remodeling construction method using precast concrete panel, and remodeled building thereof - Google Patents

Abstract

PURPOSE: A construction method for remodeling a building using a Precast Concrete panel, and a remodeling building are provided to increase the horizontal bearing power of a deteriorated steel structure. CONSTITUTION: A construction method for remodeling a building using a Precast Concrete panel is as follows. Fixing members are installed in both columns(200) of a building for remodeling. Elastic members are formed between the fixing members and the columns. PC panels are installed in the fixing members. Joint parts of the fixing members and the PC panels are welded.

Description

Building Remodeling Construction Method Using Precast Concrete Panel, and Remodeled Building Thereof}

The present invention relates to a building remodeling construction method using a PC panel, and a remodeling building, and more particularly, to a building remodeling construction method using a PC panel capable of achieving lateral support reinforcement through excellent construction, and a remodeling building. It is about.

Aspects such as the rapid increase in the demand for housing due to the rapid progress of urbanization, the improvement of the level of demand for improving the quality and utilization of aging inventory buildings, the need for environmentally friendly building management policies, and the prevention of land development due to reckless building Remodeling is recommended in the United States, and as a result, interest in remodeling continues to increase as an alternative to the demolition and construction of existing reinforced concrete buildings.

This remodeling activity has been mainly focused on special buildings such as offices, shopping malls, hospitals, etc., but recently, the remodeling of the housing sector, especially high-rise apartment buildings such as apartments, is active. The housing sector is expected to lead the overall remodeling market.

Moreover, with increasing interest in the environment and the government's policy stance to reduce environmental waste and recycle the framing of existing apartments as far as possible in terms of economic efficiency, more apartments are choosing to remodel in addition to new construction or reconstruction. It is expected to do.

On the other hand, with regard to the remodeling of the apartments, the apartments built before 1988 in Korea were designed without earthquake-resistant design due to the lack of provisions for earthquakes. As standards were established, seismic designed apartments were built for earthquakes. Therefore, in the case of buildings before the introduction of seismic design (1998), it is not only required to carry out seismic reinforcement work for existing frames in remodeling, but also the seismic reinforcement design of the part that is expanded by remodeling. Should be

Therefore, in the remodeling as described above, the most common method of seismic reinforcement has been made. The lateral support reinforcement of beam-column frame is applied by using H-beam inclined to the beam-column node of the existing building. Was done.

The reinforcement method by steel has the advantage of being prefabricated, while the axial force does not necessarily pass through the center of the steel node, so the effect of the compression brace at the node is more inefficient than the tensile brace, so the construction cost is relatively higher and the fireproof coating process is more effective. It was pointed out that it should be added.

Accordingly, an object of the present invention is to provide a building remodeling construction method and a remodeling building using a PC panel that can achieve lateral support reinforcement of excellent performance through simple construction.

Building remodeling construction method according to the present invention comprises the steps of installing a fixing member on both sides of the pillar of the remodeling target building; Installing a PC panel on fixing members installed at both pillars; And welding the junction between the fixing member and the PC panel, wherein the installing of the PC panel is a step of installing two 'c' shaped PC panels facing each other. An elastic member is provided between both pillars.

Preferably, the method further comprises placing concrete in the space between the end of the PC panel and the side of the column.

In addition, at the end of the PC panel, a metal plate connected to the main reinforcing bars inside the PC panel is formed, the metal plate is characterized in that the joining portion is formed by joining with the fixing member.

In addition, the pillar is a steel frame, characterized in that the fixing member is installed on the steel frame welding.

In addition, the pillar is a concrete pillar, characterized in that the fixing member is installed by drilling the concrete pillar.

On the other hand, the remodeling building according to the invention is characterized in that the building remodeling construction method is applied.

According to the present invention, by using the 'c'-shaped PC panel, it is possible to calculate the lateral support reinforcement (seismic reinforcement) of excellent performance by simple construction and to increase the lateral support of the old aging reinforced concrete and steel structures You can get the effect. In addition, according to the present invention, it is possible to further increase the rigidity of the pillar of the building to be remodeled by using the 'c'-shaped PC panel.

Hereinafter, with reference to the drawings will be described the present invention in more detail. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a view showing a state in which a precast concrete (PC) panel is constructed according to a building remodeling construction method according to the present invention. 1, it can be seen that the PC panel 100 according to the present invention is bonded between the RC (Reinforced Concrete) pillar 200 of the building to be remodeled. In the PC panel 100 according to the present invention, two 'c'-shaped PC panels 100 are installed to face each other, such that an empty space exists in the center.

If there is no empty space in the center, the rigidity of the RC pillar 200 is relatively reduced, resulting in the RC pillar 200 being destroyed first when the earthquake is loaded, which makes it impossible to design the steel pillar. . Therefore, in the practice of the present invention, by installing the 'c'-shaped PC panel 100 to face each other it is possible to increase the rigidity of the RC pillar (200).

2 is a view showing a coupling structure of the PC panel and the RC column according to the present invention. Referring to FIG. 2, in order to install the PC panel 100 on the RC pillar 200, first, a fixing member 210 such as an angle should be installed on the RC pillar 200. After drilling the side by injecting epoxy 230, the anchor 220 is inserted and fixed.

On the other hand, in the practice of the present invention it is preferable to reduce the insertion depth of the anchor 220 instead of increasing the number of anchors 220 in order to prevent the damage of the RC pillar (200).

In addition, in order to prevent a decrease in strength of the RC pillar 200 due to local damage of the RC pillar 200 during seismic load action, and to improve the ductility of the lateral load, a rubber between the fixing member 210 and the RC pillar 200. It would be desirable to provide an elastic member 215, such as an elastomeric bearing.

On the other hand, in fixing the fixing member 210 to the RC pillar 200, in addition to the above-described method, after drilling the side of the RC pillar 200 with a drill, a method of inserting and fixing a screw bolt may be used. The Insert Insert method may be used.

If the pillar of the building to be remodeled is not a RC pillar 200 but a steel pillar, the fixing member 210 may be installed on the steel pillar by directly welding the fixing member 210 such as an angle to the steel pillar. will be.

On the other hand, at the end of the surface of the PC panel 100, a metal plate 110 is formed. Here, the metal plate 110 is connected to the main reinforcing bars inside the PC panel 100, and in the state in which the PC panel 100 is installed on the fixing member 210, the worker fixes the fixing member 210 and the fixing member 210. By welding the plate 110 of the PC panel 100 to be in contact with each other to form a weld portion 130, whereby the PC panel 100 is to be fixed to the RC pillar (200).

However, when the length of the PC panel 100 is slightly shorter than the span between the RC pillars 200, the concrete pouring process described in FIG. 3 may be required.

3 is a view for explaining the installation principle of the PC panel to the RC pillar in FIG. 2 in more detail. Referring to FIG. 3, a main reinforcing bar 150 is provided inside the PC panel 100, and the main reinforcing bar 150 is connected to a metal plate 110 formed on upper and lower surfaces of an end portion of the PC panel 100. can confirm.

PC panel 100 according to the present invention is primarily coupled to the RC pillars 200 through the firing welding of the plate 110 and the fixing member 210, the end of the PC panel 100 and RC pillars 200 By placing the concrete 300 in the space between the site is fixedly coupled secondarily.

After curing of the cast-in-place concrete is completed, the construction of the PC panel 100 according to the present invention is completed by applying refractory spraying or fireproof coating to the metal plate 110 and the fixing member 210 exposed to the outside.

In the practice of the present invention, the fixing member 210 will be preferably an angle of the metal material of the 'b' or 'b' shape as shown in Figure 3, such a fixing member 210 in Figure 3 At the time of pouring concrete 300 plays a role of formwork and at the same time serves to increase the tensile strength of the poured concrete (300).

In the practice of the present invention, since the span length may be different for each floor of the building to be remodeled, the contact surface of the plate 110 of the PC panel 100 and the fixing member 210 is formed to be sufficiently long so that the contact surface depends on the span length. By adjusting the length of the concrete 300 by pouring, it is possible to ensure the ease of construction.

On the other hand, if the span length exactly matches the length of the PC panel 100, the PC panel 100 may be constructed without the pouring of the site concrete as shown in FIG.

In the state where the PC panel 100 according to the present invention is constructed, the load is provided on the surface of the end of the PC panel 100 which is welded to the main reinforcing bars 150 from the main reinforcing bars 150 inside the PC panel 100 ( It is transmitted to the 110, it is transmitted to the anchor 220 through the fixing member 210 which is the angle of the metal is connected to the plate 110 by welding in the plate (110).

5 to 17 is a view for explaining the process of the building remodeling construction method according to the present invention. Hereinafter, a process of a building remodeling construction method according to the present invention will be described with reference to FIGS. 5 to 17.

First, the worker drills by a predetermined position using a drill in the RC column 200 as shown in FIG. Thereafter, the worker inserts the epoxy into the perforated portion of the RC pillar 200 as shown in FIG. 6 and installs the fixing member 210 to the RC pillar 200 using the anchor 220.

At this time, the elastic member 215, such as a rubber bearing, is installed together between the fixing member 210 and the RC pillar 200, and the fixing member 210 and the elastic member 215 are preferably attached to each other. something to do.

Then, the worker installs both the fixing member 210 and the elastic member 215 on both RC pillars 200 as in FIG. 7 in the same manner, and the installation of the fixing member 210 on the RC pillars 200 is performed. When completed, as shown in Figure 8 is inserted into the 'c'-shaped PC panel 100.

After inserting the 'c'-shaped PC panel 100, the worker is installed in the perforated portion of the RC pillar 200 in order to install the fixing member 210 opposite to the fixing member 210 installed in FIG. Epoxy is inserted and the fixing member 210 is installed using the anchor 220.

 Next, the worker forms the welded portion 130 by performing a thermal welding of the PC panel 100 and the fixing member 220 as shown in FIG. 10. After welding to the opposite fixing member 220 also the PC panel 100, the worker will cast the site concrete in this space if there is a space between the RC pillar 200 and the PC panel 100 as shown in FIG.

After completing the process of FIGS. 9 and 10 in both RC pillars 200 as shown in FIG. 12, the 'c'-shaped PC panel 100 is installed between both RC pillars 200.

Then, the worker prepares to install the upper 'c' shaped PC panel 100, in order to install a fixing member 210 such as an angle on the upper portion of both RC pillars 200, as shown in FIG. The epoxy is inserted into the perforated portion of the upper part of the RC pillar 200 and the fixing member 210 is installed using the anchor 220.

After installing the fixing members 210 on the upper portions of both RC pillars 200, the operator places the upper 'c' shaped PC panel 100 on the upper 'c' shaped PC panel 100 and the lower portion as shown in FIG. 14. Insert them facing each other.

Then, the operator inserts the epoxy in the perforated portion of the RC column 200 and uses the anchor 220 to install the fixing member 210 opposite to the fixing member 210 installed in FIG. By installing the fixing member 210, by welding the upper '' 'PC panel 100 and the fixing member 220 to the upper portion to form a weld 130. Then, as shown in FIG. 16, the worker forms the welding part 130 by performing an axial welding with the opposite fixing member 220 and the PC panel 100. Afterwards, when the worker has a space between the RC pillar 200 and the PC panel 100 as shown in FIG. On the other hand, the same process is repeated in the opposite RC column 200.

While the above has been shown and described with respect to preferred embodiments and applications of the present invention, the present invention is not limited to the specific embodiments and applications described above, the invention without departing from the gist of the invention claimed in the claims Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 is a view showing a state in which a precast concrete (PC) panel is constructed according to a building remodeling construction method according to the present invention;

2 is a view showing a coupling structure between a PC panel and an RC column according to the present invention;

3 and 4 illustrate in more detail the principle of installation of the PC panel to the RC column in FIG. 2; and

5 to 17 is a view for explaining the process of the building remodeling construction method according to the present invention.

Claims (6)

Installing fixing members on opposite columns of the building to be remodeled; Installing a PC panel on fixing members installed at both pillars; And Welding the joint part of the fixing member and the PC panel; Including, The step of installing the PC panel, the step of installing so that the two '' 'PC panel facing each other, An elastic member is provided between the fixing member and the both pillars, At the end of the PC panel, a metal plate connected to the main reinforcing bars inside the PC panel is formed, the metal plate is bonded to the fixing member by welding to form the building remodeling construction, characterized in that . The method of claim 1, And placing concrete in the space between the end of the PC panel and the side of the column. delete The method of claim 1, The pillar is a steel pillar, and the fixing member is a building remodeling construction method that is welded to the steel pillar. The method of claim 1, The pillar is a concrete pillar, the fixing member is a building remodeling construction method that is installed by drilling the concrete pillar. The remodeled building to which the said method of building remodeling construction in any one of Claims 1, 2, 4 or 5 was applied.

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