KR101908943B1 - RC WALL STRUCTURE FOR TOP-DOWN AND METHOD FOR CONSTRUCTING THE STRUCTUREa - Google Patents

Abstract

The present invention relates to a structure for a top-down method of an RC wall of a basement core portion and a construction method thereof, comprising: one pair of bent steels supported by a core portion temporary column or a core portion column, and supporting the RC wall until construction is complete; a reinforcing bar structure forming the RC wall; one pair of mold panels arranged at a certain interval from the reinforcing bar; and a mesh member provided at the bottom side of the pair of bent steels to accommodate concrete placed in the mold panel.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a RC wall structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a RC wall structure and a construction method thereof, and more particularly, to a RC wall construction structure using a U-shaped steel material and a method thereof.

Generally, as a method of constructing an underground structure of a building, there is a universal application of a construction method in which an underground structure is constructed by excavating the interior of a temporary earth retaining wall and constructing an underground structure from the foundation to the ground. However, The construction method of the submarine type which constructs the underground structure in the underground direction (reverse direction) is widely used.

The so-called "top-down" method is called "top-down method." This means that underground culverts are layered, and the underground structure constructed by the construction of the basement layer structure plays a role of supporting the lateral earth pressure It is a method of constructing an underground structure while constructing an underground structure from the top downward. According to the backfilling method, it is possible to reduce the installation cost and the air significantly by using a permanent member such as a column and a beam in place of the temporary strut for supporting the earth pressure from the underground earth retaining wall. It has the advantage of being able to utilize the small, well-constructed floor of the first floor as a working space.

First of all, after constructing the temporary earth retaining wall on the outer part of the underground building, the center of the building which forms the main column of the building before the full excavation,

Subsequently, the floor was pushed down to a depth of approximately one floor, and a beam member such as a horizontal girder and a beam was installed to carry out the frame construction for the first basement. Repeating the installation of the bottom and the bottom member, And complete the entire underground structure.

At this time, one of the technical problems in the backlight system is concerned with the construction of the core portion. In the case of a core, a core is a portion in which a plurality of elements corresponding to a space vertically penetrating a building, such as a staircase, an elevator, and a piping room, are concentrically arranged. In such a core portion, It is designed to perform important structural functions such as load and lateral load support.

On the other hand, the core structure in the backfill method corresponds to a wall structure of a reinforced concrete (RC) tank. Unlike the column member, which is an individual structural member, the structure is not one that can be installed at one time before underground excavation. It should be constructed in parallel with the excavation or after completion of the subterranean excavation.

However, in order to construct the core structure, it is required to finish the work to the lowest level, so there is a drawback that the air is stretched.

Patent Document 1: Korean Patent No. 10-1267565 (Published on May 24, 2013) Patent Document 2: Korean Patent No. 10-1107567 (Published Jan. 25, 2012)

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the difficulties of conventional construction of a core structure and to provide a structure for a RC wall structure using a U-shaped steel material and a method thereof.

In order to achieve the above-mentioned object, the RC wall constriction structure according to one embodiment is a RC wall structure of a basement-layer core portion for a back-ground method, and is supported by a core- A pair of bending steel members supported until completion; A reinforcing bar structure constituting the RC wall; And a pair of form panels disposed at a distance from the reinforcing structure; And a mesh member provided below the pair of bent steel members to receive concrete poured into the form panel.

At this time, the reinforcing bar structure may include a protruding reinforcing bar that protrudes to the lower layer portion through the mesh member.

At this time, a pair of the bent steel pieces may be provided so that the opposing distance corresponds to the thickness of the RC wall.

The bent steel may also be formed to have a "C" -shaped cross section having a web, an upper flange bent at the top of the web, and a lower flange bent at the lower side of the web in the same direction as the upper flange .

Meanwhile, the reinforcing steel structure and the pair of the form panels may be formed of a pre-assembly wall, and the bent steel may include a fixture for fixing the pre-assembly wall to the upper flange.

According to one aspect of the present invention, there is provided a method for constructing a RC wall structure in a basement core portion for a backfilling method, Securing it to be supported by the column; Providing a mesh member below a pair of the bent steel members; Disposing a reinforcing steel structure constituting the RC wall between the pair of bent steel members; Disposing a pair of form panels at a certain distance from the reinforcing structure; And placing the concrete on the form panel.

Here, the reinforcing bar structure may include a protruding reinforcing bar, and the step of disposing the reinforcing bar structure may be arranged such that the protruding reinforcing bar projects through the mesh member and protrudes to the lower layer portion.

At this time, the mesh member may be disposed integrally with the pair of bent steel members.

Further, a pair of the bent steel pieces may be provided such that the opposing distance corresponds to the thickness of the RC wall.

On the other hand, the bent steel may be formed to have a "C" -shaped cross section having a web, an upper flange bent at the upper side of the web, and a lower flange bent at the lower side of the web in the same direction as the upper flange .

In addition, the reinforcing steel structure and a pair of the form panels may be formed of a pre-assembly wall, and the bent steel may include a fixture for fixing the pre-assembly wall to the upper flange.

According to the RC wall structure and the construction method thereof according to the embodiment of the present invention,

First, it enables the construction of completely continuous walls of upper and lower floors by the vertical reinforcing bars of RC wall.

Second, the continuity of the wall can be improved because the concrete in the RC wall is not disturbed by the temporary steel.

1 is an exploded perspective view of an RC wall-mounted structure according to an embodiment of the present invention.
Fig. 2 is another example in which the RC wall constructions according to the present invention are installed.
3 is a schematic cross-sectional view showing a construction process of the RC wall-mounted structure according to the present invention.
4 is an exploded perspective view of an RC wall constructions structure according to another embodiment of the present invention.
FIG. 5 is a flowchart illustrating a method for constructing an RC wall structure according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

FIG. 1 is an exploded perspective view of an RC wall constructions structure according to an embodiment of the present invention. FIG. 2 is another example in which a RC wall constructions structure according to the present invention is disposed. FIG. 2 is a schematic cross-sectional view showing the construction process of the structure.

Referring to FIGS. 1 to 3, the RC wall constriction structure 1000 according to the present invention is a structure for a retrofitting method of a RC wall W of a basement layer core portion, and includes a pair of bending steel members 100L and 100R, A structure 200, a pair of form panels 300L and 300R, and a mesh member 400. Fig.

The pair of bent steel members 100L and 100R are supported by the core part mounting pillars or the core part pillars 500 to support the RC walls until completion of the installation.

According to one embodiment, it is preferable that the pair of bent steel members 100L and 100R are disposed to face each other so as to correspond to the thickness of the RC wall W to be installed. That is, the spacing between the bended steel material 100L and the bending steel material 100R is set to be constant in accordance with the thickness of the RC wall W so that the bending steel plates 100L and 100R serve as a lower side mold of the RC wall W to be installed do.

At this time, the bended steel plates 100L and 100R are preferably formed to have a 'C' -shaped cross section so that the bended steel plates 100L and 100R serve as the lower molds of the RC wall W to be installed.

Each of the bending steel members 100L and 100R is formed so as to have a web 110, an upper flange 120 bent at the upper side of the web, and a lower flange 130 bent at the lower side of the web in the same direction as the upper flange 120 do. Subsequently, the bending steel members 100L and 100R are arranged so that the web 110 faces each other.

The bending steel members 100L and 100R may be fixed in a manner such that the bending steel members 100L and 100R are supported by a hypothetical bracket 510 provided on a core part or a core part.

The column indicated by the reference numeral 500 may be a core part column to be installed in the back-ground method, or may be a core part column temporarily installed for supporting the bended steel plates 100L and 100R.

FIG. 2 is another embodiment of the temporary bracket 510 for the placement of the bended steel plates 100L and 100R, and the RC wall restoring structure 1000 of the present invention is not limited to the illustrated form, Depending on the arrangement of the pillars 500, the shape of the temporary bracket 510 and the fixed form of the bent steel members 100L and 100R may be modified.

Meanwhile, the pair of bent steel members 100L and 100R may further include a plurality of coupling angles 140 for maintaining a constant spacing and securing the mesh member 400.

The plurality of coupling angles 140 are arranged at regular intervals with respect to the longitudinal direction of the bent steel members 100L and 100R and are coupled to the respective lower flanges 130 through welding or bolt coupling. The joining angle 140 may be a steel having a cross section of 'a' type or a steel having a 'c' type, an 'H' type or a ㅁ 'type cross section according to an embodiment.

The mesh member 400 may be formed of a wire mesh having fine intervals to accommodate concrete. The mesh member 400 is provided below the pair of bent steel members 100L and 100R to receive the concrete poured into the form panels 300L and 300R such that the concrete does not flow out to the lower part.

At this time, the mechanical strength of the mesh member 400 may be insufficient to support the concrete to be laid only by the mesh member 400. That is, the weight of the poured concrete may cause the mesh member 400 to bulge downward, or it may burst due to the weight of the concrete.

Accordingly, a plurality of coupling angles 140 may be further provided for securing the mesh member 400.

According to the embodiment, it is preferable that the coupling angles 140 are disposed at intervals of 50 cm to 60 cm with respect to the longitudinal direction of the bent steel members 100L and 100R.

The mesh member 400 and the coupling angle 140 are arranged such that the coupling angle 140 is attached to the lower flange 130 in a state where the mesh member 400 is provided on the lower flange 130 of the bent steel Alternatively,

As shown in FIG. 3, it is also possible to dispose the coupling angle 140 in a manner such that the coupling angle 140 is arranged first and the mesh member 400 is placed on the upper side of the angle. This can be appropriately selected according to the operator.

The reinforcing steel structure 200 is a reinforcing bar that forms the framework of the RC wall W.

The reinforcing steel structure 200 is formed by joining a vertical reinforcing steel and a horizontal reinforcing steel. According to the embodiment, the reinforcing steel structure 200 may be assembled by reinforcing steel reinforcement at the core construction site, 100L, and 100R, respectively.

At this time, in order to maintain continuity with the lower structure, it is preferable that the reinforcing structure 200 includes a protruding reinforcing bar 210 that penetrates the mesh member 400 and protrudes to the lower portion.

Since the mesh member 400 is formed of a wire net, the wire net is expanded according to the insertion of the protruding reinforcement 210, or the protruding reinforcement 210 is punched to fit the diameter of the protruding reinforcement 210, .

The protruding reinforcing bars 210 are connected to the vertical reinforcing bars of a reinforcing steel structure (not shown) provided at a lower portion of the reinforcing bars 210 to have a unified structure with the upper layer RC walls W due to concrete curing. If necessary, the protruding reinforcing bar 210 may be provided so as to project upward from the upper side of the reinforcing bar structure 200 for continuity with the upper layer structure.

The pair of form panels 300L and 300R are placed at a certain distance from the reinforcing structure 200 to receive the poured concrete. That is, spaced apart from the surface of the reinforcing structure 200 by the thickness of the concrete covering.

FIG. 3 is a schematic cross-sectional view illustrating a construction process of the RC wall structure according to the present invention, and FIG. 5 is a flowchart illustrating a method of constructing the RC wall structure according to the present invention.

3 and 5, a method of constructing the RC wall structure according to the present invention includes a bending steel material fixing step S100, a mesh member placement step S200, a reinforcing bar structure placement step S300, a form panel placement step S400, And a concrete pouring step S500.

In step S100, the pair of bent steel members 100L and 100R are fixed to be supported by the core part mounting pillars or the core part pillars 500, respectively.

In step S200, the mesh member 400 is provided on the lower side of the bent steel.

3 (a) is a cross-sectional view showing a state in which a pair of bent steel members 100L and 100R are supported and fixed to the core part column 500, and the steps S100 and S200 are performed.

According to the embodiment, steps S100 and S200 may be performed sequentially at the construction site, and the bent steel members 100L and 100R, which are carried out up to the disposition of the mesh member 400 at a separate place, The step S100 and the step S200 may be collectively performed by disposing them on the column 500.

The arrangement of the pair of bending steel members 100L and 100R in steps S100 and S200 has been described with reference to FIG. 1, so that a duplicate description will be omitted.

In step S300, a reinforcing bar structure 200 constituting an RC wall W is disposed between the pair of bent steel plates 100L and 100R. FIG. 3 (b) shows a state in which the step S300 is performed.

In step S400, a pair of the formwork panels 300L and 300R is disposed at a certain distance from the reinforcing bar structure 200.

In step S500, concrete is poured into the form panels 300L and 300R. FIG. 3C shows a state in which steps S400 and S500 are performed.

When curing of the concrete is completed, the form panels 300L and 300R and the pair of bending steel members 100L and 100R are removed, and the construction of the RC wall W is completed.

As described above, FIG. 5 corresponds to a time-series implementation of the embodiment of FIGS. 1 to 3. Therefore, the pair of bent steel members 100L and 100R, the reinforcing steel structure 200, The pair of form panels 300L and 300R and the mesh member 400 are also applicable to the embodiment of the present construction method, and thus a repeated description thereof will be omitted.

4 is an exploded perspective view of an RC wall constructions structure according to another embodiment of the present invention.

According to another embodiment of the present invention, the reinforcing bar structure 200 and the pair of form panels 300L and 300R shown in FIG. 1 may be formed of the pre-assembly wall P.

The bending steel members 100L and 100R each have a fixing hole H1 for fixing the pre-assembly wall P to the upper flange 120, respectively.

The prefabricated wall P is a structure in which the reinforcing steel structure 200 and the formwork are integrally formed and is a preassembled structure at a place other than the construction site of the RC wall W. The prefabricated wall P comprises the bent steel members 100L, Assembling of the RC wall constriction structure 1000 is completed only by mounting the pre-assembly wall P on the upper wall 100R and fixing the fastener H1 to the through hole H2 by bolts.

At this time, it is preferable that the pre-assembly wall P is formed so as to include the protruding bar 210 protruding to the lower layer portion through the mesh member 400 for continuity with the lower layer structure.

The protruding reinforcing bars 210 are connected to the vertical reinforcing bars of a reinforcing steel structure (not shown) provided at a lower portion of the reinforcing bars 210 to have a unified structure with the upper layer RC walls W due to concrete curing. If necessary, the protruding reinforcing bar 210 may be provided so as to project upward from the upper side of the reinforcing bar structure 200 for continuity with the upper layer structure.

Each of the form panels constituting the pre-assembly wall P includes a web 320, an upper flange 310 which is bent at the upper side of the web 320 and a lower flange 310 which is bent at the lower side of the web in the same direction as the upper flange 310 It is preferable to have a form having the flange 330.

The upper flange 310 and the lower flange 330 are provided with through holes H3 and H2, respectively. The through hole H2 is provided at a position corresponding to the fixture H1 provided on the upper flange 120 of the bent steel members 100L and 100R and the pre-assembly wall P is fixed by the bolt- The assembling of the backlight installation structure 1000 is completed.

The pre-assembled wall P shown in Fig. 4 is only one of the embodiments, and in addition to the form shown in the figure, the shape of the pre-assembled wall P may be embodied in a suitably modified form according to the embodiment.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate the understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

1000: RC wall constructions construction
100a, 100b: bending steel
200: Rebar structure
300a, 300b: Formwork panel
400: mesh member

Claims (11)

As a structure for backfilling the RC wall of the underground core,
A pair of bent steel members supported by the core supporting columns or the core supporting columns to support the RC walls until the installation is completed;
A reinforcing bar structure constituting the RC wall; And
A pair of form panels disposed at a distance from the reinforcing structure; And
And a mesh member provided below a pair of the bent steel members to receive concrete poured into the formwork panel,
The reinforcing bar structure may be formed,
And a protruding reinforcing bar that penetrates the mesh member and protrudes to a lower layer portion,
A pair of the bent steel members,
A facing distance is provided corresponding to the thickness of the RC wall,
Shaped cross section having a web, an upper flange bent at the upper side of the web, and a lower flange bent at the lower side of the web in the same direction as the upper flange,
Shaped coupling angles (140) arranged at intervals of 50 cm to 60 cm with respect to the longitudinal direction of the pair of bent steel members and joined to the respective lower flanges through welding or bolt coupling,
The mesh member is fixed on an upper surface on which the coupling angle 140 is disposed,
The pair of the dice panels 300,
An upper flange 310 bent at the upper side of the web 320 and a lower flange 330 bent at the lower side of the web in the same direction as the upper flange 310,
Wherein the upper flange (310) and the lower flange (330) are provided with through holes (H3 and H2), respectively. delete delete delete The method according to claim 1,
Wherein the reinforcing structure and the pair of the form panels are formed as pre-assembled walls,
Wherein the bent steel material includes a fixing hole (H1) for fixing the pre-assembly wall to the upper flange,
And the through hole (H2) is provided at a position corresponding to the fixing hole (H1).
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