KR101078049B1 - Steel Mold Assembly for Base of Bridge and Constructing Method for Base of Bridge using Steel Mold Assembly - Google Patents

Abstract

The present invention in the construction of the foundation of the bridge, to solve the problem of the loss of materials and expenses due to the overconsumption of concrete and the impossibility of recycling, which is a disadvantage of the bridge foundation construction method using a conventional concrete house-type structure to reduce the weight The present invention relates to a bridge foundation construction method for constructing a bridge foundation using a formwork made of steel, and a steel formwork assembly therefor.

In the present invention, the anchor 13 is embedded in the side and the concrete base plate 11 is formed with a pile hole 14 is inserted into the pile 201; A steel wall (12) which is vertically coupled by the anchor (13) at the side of the concrete deck (11) to form a side wall for forming a space in which the foundation concrete (200) can be poured; An anchor hole 15 through which the anchor 13 penetrates is formed in the lower portion of the steel wall 12, and the lower portion of the steel wall 12 contacts the side surface of the concrete bottom plate 11. The anchor 13 is penetrated to the anchor hole 15 so as to be integrally coupled to the concrete base plate 11 in an upright manner; After the foundation concrete 200 is poured into the space formed by the steel wall 12 and the concrete bottom plate 11, the steel wall 12 has a structure that is separated from the concrete bottom plate 11 and demoulded. Provided are a steel formwork assembly for the construction of a bridge foundation, and a bridge foundation construction method using the same.

Formwork, foundation, concrete, assembly, bridges, steel, assembly

Description

Steel Mold Assembly for Base of Bridge and Constructing Method for Base of Bridge using Steel Mold Assembly}

The present invention relates to a steel formwork assembly for the construction of bridge foundations and a bridge foundation construction method using the same, and more particularly, in the construction of the foundation of the bridge, which is a disadvantage of the bridge foundation construction method using a conventional concrete house-type structure In order to solve the problem of loss of materials and expenses due to excessive consumption of concrete and impossibility of recycling, and to reduce the weight, the bridge foundation construction method for constructing the bridge foundation by using the formwork made of steel, and the steel formwork assembly for the same .

1 and 2 are cross-sectional views illustrating the installation of the concrete house-shaped structure 100 in the method of constructing the bridge foundations according to the prior art, respectively, and the foundation concrete 200 is placed inside the concrete house-shaped structure 100. Cross-sectional views showing one state are respectively shown. As shown in the drawings, conventionally, the concrete house-like structure 100 consisting of the bottom plate 101 and the side wall 102 is installed on the pile 201 (specifically, RCD pile), the bottom plate 101 ) And the foundation of the bridge was filled by filling the base concrete 200 in the space inside the side wall 102.

By the way, in the prior art as described above, the concrete house-type structure 100 is used only as a formwork for pouring the foundation concrete 200, in contrast, to produce a concrete house-type structure 100 a large amount of concrete is used do. In particular, since the concrete house-like structure 100 serves as a formwork, the concrete house-type structure 100 is discarded in combination with the foundation concrete 200 and becomes impossible to recycle. This will cause a big loss in construction costs.

In addition, since the concrete house-type structure 100 has a large self-weight, heavy equipment is required to lift it and mount it on a pier construction site (for example, underwater in a river or the sea), and work becomes difficult, thereby increasing the cost and construction period. There is a problem that cannot be avoided.

The present invention was developed to overcome the limitations and problems of the prior art as described above, with the aim of minimizing the increase in material and construction costs caused by unnecessarily large amount of concrete is used for the formwork for laying the foundation concrete. do.

It is also aimed at minimizing the use of heavy equipment caused by the large self-weight of large concrete house-type structures, thereby increasing the cost and reducing the workability.

In the present invention, as a means for achieving the above object, made of a concrete floor plate and the steel wall is assembled to the concrete floor plate, the base concrete by the site-cast concrete in the space formed by the concrete floor plate and the steel wall After construction, the steel wall is demoulded and provided with a steel formwork assembly for construction of a bridge foundation having a reusable structure and a bridge foundation construction method using the same.

Specifically, in the present invention, in order to achieve the above object, the anchor is embedded in the side and the bottom of the concrete bottom plate is formed with a pile hole is inserted into the pile; A steel wall vertically coupled by the anchor at the side of the concrete deck to form a side wall for forming a space in which the foundation concrete can be poured; An anchor hole through which the anchor penetrates is formed in the lower portion of the steel wall, and the lower portion of the steel wall contacts the side surface of the concrete bottom plate and the anchor hole penetrates through the anchor hole so that the concrete bottom plate and the Have a configuration that is integrally coupled upright; After the foundation concrete is poured into the space formed by the steel wall and the concrete floor plate is provided a steel formwork assembly for the construction of the bridge foundation, characterized in that the steel wall has a structure that is demolded and separated from the concrete floor plate.

In addition, in the present invention, as a means for achieving the object, an anchor is embedded in the side and the concrete base plate is formed in the pile hole is inserted into the pile, the upper end of the pile is installed in the upper portion of the pile to be inserted into the pile hole; A steel wall having an anchor hole formed at a lower portion thereof in contact with a side surface of the concrete floor plate to be coupled to the anchor hole through the anchor to be integrally mounted upright with the side of the concrete floor plate; Placing basic concrete in a space formed by the steel wall and concrete deck; By separating the steel wall from the concrete base plate and demolding, there is provided a method of constructing a bridge foundation using a steel formwork assembly, wherein the foundation of the bridge is constructed.

In the steel formwork assembly of the present invention and the bridge foundation construction method using the same, a lifting plate is installed between the side of the concrete floor plate and the steel wall; Watertight materials may be installed on the side of the concrete deck and the inner edge of the steel wall.

In addition, the steel formwork assembly of the present invention and the bridge-based construction method using the same, the inside of the steel wall is composed of an installation member provided to be assembled and disassembled on the steel wall, a rod screwed to the installation member, A level adjusting device may be further provided to rotate the handle on the top of the rod to cause the steel wall to move up and down by screwing in and out so that the position of the anchor hole of the steel wall matches the position of the anchor.

According to the present invention, since the formwork for the foundation concrete is formed by using the steel wall that can be assembled and disassembled, it is possible to avoid using an unnecessarily large amount of concrete for the formwork, as compared with the prior art using the concrete house-type structure. In addition, it is possible to reduce construction materials and construction costs by reducing the dead concrete. In particular, since the steel wall can be demolded and separated from the concrete base plate, the steel wall can be recycled, thereby reducing the cost of constructing the foundation concrete.

In addition, in the present invention, the steel wall has a small self-weight compared to the concrete house-type structure, so it is easy to handle, and thus, unlike the prior art, it is possible to reduce the use of heavy equipment and improve workability, thereby reducing costs and shortening the construction period. It becomes possible to plan.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The present invention has been described with reference to the embodiments shown in the drawings, which are described as one embodiment by which the technical spirit of the present invention and its core configuration and operation are not limited.

FIG. 3 is a schematic cross-sectional view showing the process of installing the steel formwork assembly 1 (hereinafter, abbreviated as "steel formwork assembly") for the piling foundation construction according to the present invention to the pile 201, and FIG. 4. 3 is a schematic cross-sectional view showing a state in which the installation of the steel formwork assembly 1 is completed subsequent to the state shown in FIG. 3. FIG. 5 is a detailed view of circle A of FIG. 4, and FIG. 6 is a schematic cross-sectional view showing a state in which the steel formwork assembly 1 of the present invention is demolded after the foundation concrete 200 is poured. .

As shown in the drawings, the steel formwork assembly 1 according to the present invention, the concrete base plate 11 is formed with a anchor hole 13 embedded in the side and the pile hole 14 is inserted into the pile 201 is inserted. And a steel wall 12 that is vertically coupled by the anchor 13 at the side of the concrete bottom plate 11.

Specifically, the steel formwork assembly 1 according to the present invention is installed in a state in which a conventional pile 201, such as an RCD pile, is installed on the ground. As described above, the concrete bottom plate 11 made of concrete is made of the steel. It is provided in the formwork assembly 1. The concrete bottom plate 11 is formed with a pile ball 14 through which the tip portion of the pile 201 can pass, so when the concrete bottom plate 11 is placed on the pile 201, the pile 201 The tip portion of the penetrates the concrete bottom plate 11. An anchor 13 is embedded in the side surface of the concrete bottom plate 11 in advance. By the anchor 13, the steel wall 12 is installed in an upright state in combination with the side surface of the concrete floor plate 11, as will be described later.

The steel wall 12 is a component forming a side wall for forming a space in which the foundation concrete 200 is to be poured, and an anchor hole 15 through which the anchor 13 can penetrate is formed at a lower portion thereof. . The anchor hole 15 is preferably formed in the form of a long hole in the vertical direction (height direction of the steel wall). The steel wall 12 has a lower portion in contact with the side surface of the concrete bottom plate 11 and the anchor hole 15 penetrates the anchor hole 15 to be fastened by a fastening member 18 such as a nut. It is coupled integrally with the concrete floor plate (11).

The steel wall 12 is a plurality of assembled to the side to form a wall of a square or polygon. Side connection of each steel wall 12 may be made by a known method such as welding.

As described above, in coupling the steel wall 12 to the side surface of the concrete bottom plate 11, it is preferable to use the level adjusting device 2, as shown in Fig. 5, and the steel wall 12 and the concrete bottom plate ( It is preferable to form a watertight structure between the sides of 11).

In order to couple the steel wall 12 to the side of the concrete base plate 11, the anchor 13 and the anchor hole must be accurately matched. By the way, the steel wall 12, although made of steel plate is much smaller than the conventional concrete house-shaped structure, still has some weight. Therefore, in order to easily match the position of the anchor 13 and the anchor hole, as shown in the figure, a level adjusting device 2 is installed in the lower inner side of the steel wall 12, and the height of the steel wall 12 is provided. It is desirable to be able to easily adjust. The level adjusting device 2 is composed of a rod 22 screwed to the mounting member 21 inside the steel wall 12, and the steel material by screwing in and out by rotating the handle 23 of the upper portion of the rod 22 By allowing the wall 12 to move up and down, the position of the anchor hole of the steel wall 12 is coincident with the position of the anchor 13. The installation member 21 is provided on the steel wall 12 so that it can be disassembled and assembled from the steel wall 12.

On the other hand, for the watertight between the side of the concrete floor plate 11 and the steel wall 12, as shown in Figure 5, between the side of the concrete floor plate 11 and the steel wall 12 with a rubber or synthetic resin board It is preferable to interpose the lifting prevention plate 31 which was made. By installing the lifting prevention plate 31, the side surface of the concrete bottom plate 11 and the steel wall 12 are tightly contacted without empty space. In addition, by applying a water-tight material 32 made of rubber or the like on the side of the concrete bottom plate 11 and the inner edge of the steel wall 12, or interposed between the side of the concrete bottom plate 11 and the steel wall 12, It is preferable to have watertightness so that water from the outside does not flow into the interior space of the steel wall 12 or the foundation concrete 200 poured in the interior space of the steel wall 12 does not flow out. Of course, as shown in the figure, it is also preferable that the watertight member 32 is provided on the side of the concrete bottom plate 11 and the outside of the steel wall 12 in this manner. Such double watertight structure ensures satisfactory watertightness.

As described above, the steel wall 12 is installed to stand upright in combination with the concrete bottom plate 11, thereby forming a space in which the base concrete 200 can be poured by the steel wall 12 and the concrete bottom plate 11. do. After reinforcing the reinforcing bar in the space, and poured the base concrete 200 by using the in-site pouring concrete, and then, as shown in Figure 6, by releasing the fastening state of the anchor 13, the steel wall 12 Demould. The concrete bottom plate 11 is integrated with the newly poured concrete and becomes part of the base concrete 200. The demolded steel wall 12 can be recycled as formwork at other locations or at different construction sites.

As described above, according to the present invention, since the formwork for the foundation concrete 200 is formed by using the steel wall 12 that can be assembled and disassembled, the formwork is manufactured in comparison with the prior art using the concrete house-type structure 100. Unnecessarily using a large amount of concrete can be avoided, thereby reducing the amount of concrete to be saved, thereby reducing the construction materials and construction costs. In particular, since the steel wall 12 is demolded and separated from the concrete bottom plate 11, the steel wall 12 can be recycled, thereby reducing the cost of constructing the foundation concrete 200.

In addition, since the steel wall 12 has a small self-weight compared to the concrete house-shaped structure 100, it is easy to handle. Accordingly, unlike the prior art, it is possible to reduce the use of heavy equipment and improve workability and cost and construction period. It is possible to reduce the cost.

On the other hand, the steel formwork assembly 1 according to the present invention as described above may be installed on the pile 201 in a state in which the steel wall 12 is coupled to the concrete bottom plate 11 in advance, but the concrete bottom plate on the pile 201 After installing (11), it is more preferable that the steel wall 12 is lifted with the equipment to approach the concrete floor plate 11 side and integrally coupled to the side surface of the concrete floor plate 11 in the manner described above. This is because it is more convenient to separate and transport the concrete bottom plate 11 and the steel wall 12, respectively.

On the other hand, in the configuration of the level adjusting device 2 described above in the present invention, it may be modified as shown in Figs. FIG. 7 is a view corresponding to FIG. 4, and FIG. 8 is a view corresponding to FIG. 6, in which the leveling device 2 for retreating with screws is installed inside the lower portion of the steel wall 12. ) And insert the rod (22) into the embedding pipe (24). At this time, the rod 22 is preferably such that the length of the rod 22 is equal to or greater than the height of the steel wall 12 so that the rod 22 can be removed after the foundation concrete 200 is poured. Do. In such a configuration, as shown in FIG. 8, by using the level adjusting device 2, the height of the steel wall 12 is adjusted to be combined with the concrete base plate 11, and the foundation concrete 200 is poured into the inner space thereof. After the buried pipe 24 is left embedded in the foundation concrete 200, the rod 22 is pulled out.

1 is a cross-sectional view showing the installation of a concrete house-like structure in a method for constructing a bridge foundation by the prior art.

2 is a cross-sectional view showing a state in which the foundation concrete is poured into the concrete house-shaped structure according to the prior art.

Figure 3 is a schematic cross-sectional view showing the process of installing a steel formwork assembly for piling foundation construction in accordance with the present invention.

4 is a schematic cross-sectional view showing a state in which the installation of the steel formwork assembly is completed following the state shown in FIG. 3.

5 is a detail of circle A of FIG. 4.

Figure 6 is a schematic cross-sectional view showing a demolded state of the steel formwork assembly of the present invention after pouring the foundation concrete.

FIG. 7 is a view corresponding to FIG. 4, which is a schematic cross-sectional view showing the installation of the steel formwork assembly in another embodiment of the present invention.

FIG. 8 is a view corresponding to FIG. 6, which is a schematic cross-sectional view showing a state in which the steel formwork assembly of the present invention is demolded after the foundation concrete is poured for the embodiment shown in FIG. 7.

<Description of the symbols for the main parts of the drawings>

1 Steel formwork assembly 11 Concrete deck

12 steel wall

Claims (4)

delete An anchor 13 embedded in the side and a concrete bottom plate 11 having a pile hole 14 into which the pile 201 is inserted; A steel wall (12) which is vertically coupled by the anchor (13) at the side of the concrete deck (11) to form a side wall for forming a space in which the foundation concrete (200) can be poured; An anchor hole 15 through which the anchor 13 penetrates is formed in the lower portion of the steel wall 12, and the lower portion of the steel wall 12 contacts the side surface of the concrete bottom plate 11. The anchor 13 is penetrated to the anchor hole 15 so as to be integrally coupled to the concrete base plate 11 in an upright manner; After the foundation concrete 200 is poured into the space formed by the steel wall 12 and the concrete bottom plate 11, the steel wall 12 has a structure that is separated from the concrete bottom plate 11 and demolded; A lifting prevention plate 31 is provided between the side surface of the concrete bottom plate 11 and the steel wall 12; Watertight members 32 are provided on the side surfaces of the concrete base plate 11 and the inner edges of the steel walls 12; Inside the steel wall 12, the rod 22 is composed of an installation member 21 provided to be disassembled and assembled to the steel wall 12, and a rod 22 screwed to the installation member 21. This rotation further causes the steel wall 12 to move up and down by screwing back and forth so that the level adjusting device 2 is further provided so that the position of the anchor hole of the steel wall 12 coincides with the position of the anchor 13. Steel formwork assembly characterized in that. delete Anchor 13 is embedded in the side and the concrete base plate 11 is formed with a pile hole 14 is inserted into the pile 201, so that the upper end of the pile 201 is penetrated into the pile hole (14) Installed on top of pile 201; The steel wall 12 having the anchor hole 15 formed at the bottom thereof is in contact with the side surface of the concrete floor plate 11, but the lifting prevention plate between the side of the concrete floor plate 11 and the steel wall 12. (31) is installed, and the watertight member (32) is installed at the side of the concrete bottom plate (11) and the inner edge of the steel wall (12), and an installation member provided to be disassembled and assembled to the steel wall (12). A level adjusting device 2 composed of a rod 21 screwed to the mounting member 21 is installed inside the steel wall 12, and the rod 22 of the level adjusting device 2 is installed. By rotating the steel wall 12 up and down by screwing in and out so that the position of the anchor hole of the steel wall 12 coincides with the position of the anchor 13, the anchor hole 15 to the anchor The steel wall 12 is erected from the side of the concrete bottom plate 11 by fastening through the 13. Achieve a side wall, and installing coupled integrally to the side of the steel wall 12 removable to the concrete ground plate 11 a; Placing the foundation concrete (200) in the space formed by the steel wall (12) and the concrete base plate (11); A method of constructing a bridge foundation using a steel formwork assembly, wherein the steel wall (12) is separated from the concrete base plate (11) to demold. "

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