KR101302520B1 - Constuction structure of rc wall - Google Patents

Abstract

PURPOSE: A construction structure for a concrete wall is provided to stably construct a building by largely improving the rigidity of a wall and to allow a user to simply construct the wall by placing concrete without an installation process and a dismantling process of a mold. CONSTITUTION: A construction structure for a concrete wall comprises a pair of steel plates (3), a plurality of vertical reinforcing units (20), a horizontal support unit (30), and a connection unit (40). The pair of the steel plates is stood to face each other and is installed by being separated. A plurality of the vertical reinforcing units is assembled by being vertically fitted in an input unit (11) formed by bending the steel plate. The horizontal support unit is horizontally fitted in a mounting groove (21) of the vertical reinforcing unit and is assembled by passing through a plurality of the vertical reinforcing units. The connection unit connects two horizontal support units to fix a gap between the pair of the steel plates.

Description

Concrete wall construction structure {Constuction structure of RC wall}

The present invention relates to a concrete wall construction structure used as an exterior wall of a building of the present invention, and to a concrete wall construction structure that can be used as a reinforcement by using the formwork itself as a wall without installing and dismantling the formwork.

In general, the walls of a building can be firmly constructed when it is constructed by site casting.In order to erect concrete walls by site casting, after installing the formwork facing each other to fit the designed width, between the formwork After the concrete is injected, the walls are constructed, and after the concrete in the form is cured, the form is removed to construct only the walls.

However, the problem in the construction of the concrete wall by this site casting is to perform all the work on the site including the installation and removal of the formwork, so that the formwork and the support for forming the slab together with the wall It requires a lot of manpower and work time, and the form must remain until the concrete is hardened and has sufficient strength, so there is a gap in construction. After curing the concrete, the formwork must be removed and the upper layer work proceeded. Therefore, there is a problem such as a work gap occurs, and the construction period is inevitably long, and the removal of such formwork is cumbersome, and there is a possibility of a safety accident in the removal process.

In addition, waste material processing after dismantling formwork is cumbersome, and a lot of costs are incurred in processing such waste material, and in particular, waste materials such as wood after pouring concrete cannot be recycled, which in turn adversely affects the environment. There is a problem.

On the other hand, when the wall is constructed by the concrete pouring method, the greater the specific gravity of the concrete placed on the formwork and the better the watertightness of the formwork, the higher the side pressure of the formwork, which is complicated in the strength calculation and structural analysis of the structure. However, when the error occurs in the calculation and the side pressure becomes larger than the set strength of the formwork, there is a problem such that a part of the wall swells, which makes it difficult to accurately construct the wall, and thus stability of the entire building structure. There is a problem that hurts.

Therefore, the present invention is to be used as a reinforcing material to increase the strength of the building in the concrete and the wall structure itself functions as a formwork for concrete placement without the need to install and dismantle the formwork.

In addition, it is possible to simply install the structure for concrete placement, while improving the strength vertically and horizontally, so that it can withstand the side pressure generated during concrete placement, it is possible to build a stable construction.

To this end, the present invention is a pair of steel plates that are installed to face each other upright and spaced apart, a plurality of vertical reinforcing bar is assembled to be vertically fitted into the bent portion formed by bending the steel plate, horizontal to the mounting groove formed in the vertical reinforcement Spaced between the two steel plates by being assembled with a horizontal support inserted through the plurality of vertical reinforcement bars and a connecting port for interconnecting the two horizontal supports to fix the gap between the pair of steel plates. The concrete is poured into the wall to form a wall, and after the concrete is cured, it is used as a reinforcing material to reinforce the wall without dismantling such an assembly structure.

Therefore, in the present invention, since the concrete can be installed by placing concrete without installing and dismantling the formwork, the construction is simple, and the support strength is improved, so that even when the side pressure due to the concrete is poured, the outer surface of the wall sags or ships. Since the deformation does not occur, such as calling or warping, the shape dimension is effectively constructed as designed.In the state of completion of the wall construction, the structure itself for concrete placing reinforces the wall, so the overall rigidity of the wall is greatly improved, and the durability, It is excellent in seismic resistance and can improve the safety of building itself by securing resistance to external force such as vibration or shock.

In addition, since the installation and dismantling process of the formwork is not required separately, the work time can be shortened, and the construction period can be shortened by continuously raising the wall vertically without any construction gap.

In addition, since the waste material does not occur even after the concrete is placed, it is possible to reduce the post-treatment cost, so that the wall can be constructed economically and environmentally.

1 is a perspective view showing a first embodiment of the present invention
2a to 2c is a state diagram showing the installation procedure according to the first embodiment
3 is a cross-sectional view of the wall construction state of the first embodiment of the present invention
4 is a perspective view showing a concrete pouring state according to a first embodiment of the present invention
5a to 5d are perspective views showing the installation configuration of the first embodiment
6 is a perspective view showing a second embodiment of the present invention
7A to 7C are state diagrams showing the installation procedure according to the second embodiment.
8 is a cross-sectional view of the wall construction state of the second embodiment of the present invention
9 is a perspective view showing a concrete pouring state according to a second embodiment of the present invention
10a to 10d are perspective views showing the installation configuration of the second embodiment
11 is a perspective view showing another embodiment of the steel plate of the present invention
12 is a perspective view showing the wall construction structure in the state where the steel plate of Figure 11 is applied
13a and 13b is an operating state diagram showing another embodiment of the connector of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention is vertically fitted to a pair of steel plate 10 which is installed upright facing each other and installed spaced apart from each other, and the inner portion 11 formed by bending the steel plate 10 as shown in Figures 1 to 4 A plurality of vertical reinforcing bars 20 to be assembled, horizontal supporters 30 horizontally fitted into the mounting grooves 21 formed in the vertical reinforcing bars 20 and assembled through the plurality of vertical reinforcing bars 20, and the pair of Consists of a connection port 40 for interconnecting the two horizontal support 30 to fix the gap of the steel plate 10, concrete is poured into the spaced space between the pair of steel plate 10 to form a wall In order to do so, it is possible to use the structure itself for concrete placement as a wall without installing a separate formwork so that the structure serves as a reinforcement for the wall.

That is, the steel plate 10 forms the indentation portion 11 by repeatedly bending the metal plate as shown in FIG. 5A, and the vertical reinforcing bar 20 is formed by bending the metal plate as shown in FIG. 5B. While forming the seating groove 21 on the side to form the expansion portion 22 in the same shape as the inlet portion 11 of the steel plate 10, the horizontal support 30 is made of a metal pipe as shown in Figure 5c As the perforated hole 31 is formed, the connector 40 is formed such that the two insertion portions 41 are connected by the suspension connecting portion 42 to form a 'c' shape as shown in FIG. 5d.

Accordingly, the steel plate 10 and the vertical reinforcing bar 20 are vertically fitted with the extension part 22 of the vertical reinforcing bar 20 vertically inserted into the inner portion 11 formed in the steel plate 10 as shown in FIG. 2A and FIG. 2C. After assembling, the steel plate 10 is supported by inserting a horizontal support into the seating groove 21 formed in the vertical reinforcement 20, and the steel plate 10 and the vertical reinforcement 20 and the horizontal support 30. By reconnecting the pair of horizontal support 30 facing each other in the coupled state to the connection port 40 will be able to pour concrete inside the inside while adjusting the distance between the two steel plate 10.

Therefore, the steel plate 10 is dually supported by the vertical reinforcement 20 and the horizontal support 30 to improve the durability, even when the side pressure occurs when placing concrete between the steel plate 10 The steel plate 10 will be able to construct the side wall while maintaining the shape firmly without deformation of the shape, such as twisting or bending.

At this time, the inboard portion 11 formed on the steel plate 10 forms a pair of inclined surfaces 12 to face each other while the extension portion 22 of the vertical reinforcement 20 is the inclined surface of the inboard portion 11. When formed in the same manner to correspond to the shape, when the vertical reinforcing bar 20 is coupled to the steel plate 10, the vertical reinforcing bar 20 is fitted to the steel plate 10 while being easily assembled by sliding from the upper side to the lower side. It is desirable to be able to assemble firmly without falling out laterally.

In addition, the vertical reinforcement 20 is to allow a plurality of mounting grooves 21 are arranged in a multi-layer vertically to be able to fit a plurality of horizontal support 30 to be fixed, each of the horizontal support ( 30 can be assembled all together, or the horizontal support 30 can be selectively assembled from a plurality of mounting grooves 21, and the selective assembly of the horizontal support 30 is designed for the construction of walls in the construction of concrete walls According to the required durability or strength at the time of the number of assembly of the horizontal support 30 can be selected.

At this time, the shape of the mounting groove 21 formed in the vertical reinforcing bar 20 is formed in the 'b' shape consisting of the insertion portion 21a and the seating portion 21b to insert the horizontal support 30 into the insertion portion 21a. It is desirable to be fixed to the seating portion (21b) by inserting the), wherein the horizontal support 30 is formed in the shape of a circular pipe, as shown in Figure 5c, or a metal plate '' 'shape as shown in Figure 10c It is to be inserted into the bent bar form from the side of the vertical reinforcement (20).

In addition, when the vertical reinforcing bar 20 is formed by bending the metal plate, forming the bending reinforcing parts 23 at both ends of the metal plate may further improve the vertical reinforcement while preventing the vertical reinforcing bar 20 from bending to the side. At this time, the bending reinforcement portion 23 is to be able to further increase the reinforcement by double bending.

In addition, the connector 40 is composed of two insertion portions 41 by the suspension connection portion 42 is inserted portion 41 is inserted into the perforation hole 31 of the horizontal support 30, the connector 40 By assembling the assembly will be able to maintain the gap between the two steel plate 10 facing.

At this time, the spacing of the steel plate 10 is to maintain the spacing of the steel plate 10 by selecting several kinds of connection ports 40 different in length of the suspension connector 42, or to the connection port 40 itself It is possible to adjust the length of the suspension connection portion 42 by forming the gap adjusting means 43, the structure of the gap adjusting means 43 forms the gap adjusting means 43 by the bolt tightening method It is preferable.

That is, to adjust the length while tightening or loosening the bolt tightening method as shown in Figure 13a, or as shown in Figure 13b by cutting the center of the connector 40 to face each other in the divided state To form a thread symmetrically to the symmetrically formed threaded threaded fasteners 44 made of a nut shape so that the divided body by the rotation of the fasteners 44 can be opened or narrowed to both sides to operate In this way, the gap adjusting means 43 by adjusting the distance between the two steel plate 10, it is also possible to adjust the length of the connection port 40 individually to be able to assemble precisely.

Therefore, even if the steel plate 10 by the vertical reinforcing rod 20, the horizontal support 30 and the connector 40 when the side pressure occurs during the concrete placement, the deformation of the outer surface of the wall, such as deflection, bending, distortion does not occur The dimensions are correctly constructed according to the design, and when the wall is completed, the structure itself for concrete placing reinforces the wall, so the overall rigidity of the wall is greatly improved, which is excellent in durability and seismic resistance, and resists external forces such as vibration and shock. It will be possible to improve the safety of the building itself.

On the other hand, the steel plate 10 is a steel plate 10 when the auxiliary bending portion 13 is formed between the respective inner portion 11, or in the inner portion 11 when the inner portion 11 is arranged in the lateral direction ) It is to reinforce itself to further improve the durability.

In addition, when the drainage groove 14 is formed in the steel plate 10 as shown in FIG. 11, the drainage groove 14 may be discharged to reduce the time required for curing the concrete by discharging unnecessary moisture in the curing of concrete. The structure of 14 may be formed by perforating the steel plate 10 made of a plate material, or may be formed in a staggered form by processing the perforated material.

10: steel plate 11: inner part
12: slope 13: auxiliary bend
14: drainage groove
20: vertical reinforcement 21: mounting groove
21a: insert 21b: seat
22: extension 23: bending reinforcement
30: horizontal support 31: perforation hole
40: connection part 41: insertion part
42: suspension connection 43: gap adjusting means
44: diaphragm

Claims (7)

A pair of steel plates 10 which are installed to face each other and are spaced apart from each other, a plurality of vertical reinforcing bars 20 assembled vertically to an inner part 11 formed by bending the steel plate 10, and a vertical reinforcing bar A horizontal support 30 fitted horizontally into the mounting groove 21 formed in the 20 and assembled through the plurality of vertical reinforcing bars 20, and two to fix the gap between the pair of steel plates 10; Concrete wall construction structure consisting of the connection port 40 for interconnecting the horizontal support (30) to form a wall by placing concrete in the space between the pair of steel plate (10). According to claim 1, wherein the steel plate 10 is formed by a pair of inclined surface 12 formed to face each other while the inner portion 11 is formed, the inner portion 11 is repeatedly formed, the vertical reinforcement 20 is extended portion 22 is formed so as to correspond to the shape of the inclined surface 12 to prevent the fall of the vertical reinforcing bar 20 by the inclined surface 12, the vertical reinforcement is made and the twisting of the steel plate 10 Concrete wall construction, characterized in that to further prevent. The concrete wall of claim 2, wherein the vertical reinforcing bar 20 is formed by bending a metal plate, and bending ends 23 are formed at both ends of the metal plate to improve vertical reinforcement of the vertical reinforcing bar 20. Construction structure. According to claim 2, wherein the vertical reinforcing bar 20 is formed in the 'b' shape of the mounting groove 21 is composed of the insertion portion 21a and the seating portion 21b, the horizontal support 30 is circular Concrete wall construction structure, characterized in that made in the form of a pipe can be inserted from the side of the vertical reinforcement (20). According to claim 2, wherein the vertical reinforcing bar 20 is formed in the 'b' shape of the mounting groove 21 is composed of the insertion portion 21a and the seating portion 21b, the horizontal support 30 is a metal plate Concrete wall construction structure, characterized in that it is made of a bar shape bent in the 'c' shape to be inserted from the side of the vertical reinforcement (20). The method of claim 1, wherein the steel plate 10 is a concrete wall construction structure, characterized in that the drain groove is formed so that it is possible to shorten the time required for concrete curing by discharging unnecessary moisture in the curing of concrete. According to claim 1, The connector 40 is a concrete wall construction structure, characterized in that the gap adjusting means 43 is formed by a bolt tightening method.

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