KR20060010695A - Hollow concrete steel pipe girder and girder bridge using hollow pipe girder - Google Patents

Abstract

The present invention, instead of the conventional U-shaped concrete girders, by placing a corrugated steel pipe or a general structural steel pipe to form a hollow inside the girder, while exhibiting the self-weight reduction effect according to the hollow formation and at the same time to increase the rigidity when girder hypothesis Hollow concrete girders and thereby support new structures that reduce the risk of breakage, require little maintenance of the interior space, improve durability, simplify rebar assembly, and facilitate the construction of upper deck slabs It is about becoming a girder bridge.

In the present invention, as a hollow concrete girder (1) for supporting the bottom of the girder bridge, the steel pipe 10 is disposed in the center to form a hollow, the top of the steel pipe 10 is exposed to the upper surface of the girder (1); A shear connecting member 12 is integrally installed at the top of the exposed steel pipe 10; Wing plates 11 having a predetermined width are formed on the upper left and right sides of the girder 1; A hollow concrete girder and a girder bridge using the same are provided in which the tension member 14 is disposed in the longitudinal direction and has a structure in which prestress is introduced.

Girder, Hollow, Corrugated Steel Pipe, Bridge, Tension

Description

Hollow Concrete Steel Pipe Girder and Girder Bridge using Hollow Pipe Girder}             

1A is a perspective view of a U-shaped girder used in a conventional girder bridge, which is a perspective view of a U-shaped concrete girder made of concrete, and FIG. 1B is a schematic partial cross-sectional view of the girder bridge manufactured using the U-shaped girder of FIG.

Figure 2a is a schematic perspective view of the girder bridge made by steel pipe reinforced hollow concrete girder 1 according to the present invention, Figure 2b is a schematic cross-sectional view taken along line AA of Figure 2a, Figure 2c is a line BB of Figure 2a A schematic cross section according to.

* Explanation of symbols for the main parts of the drawings *

 1 hollow concrete girder 2 bottom plate

 10 steel pipe 14 tension material

The present invention relates to a concrete girder and a girder bridge supported by the same, in place of the conventional U-shaped concrete girder, by placing a corrugated steel pipe or a general structural steel pipe to form a hollow in the interior of the girder, the self-weight reduction effect according to the hollow formation In addition to reducing the risk of destruction during girder construction by increasing the rigidity, little maintenance of the internal space is required, improving durability, simplifying the reinforcing reinforcing bar, and easy construction of the upper floor plate. The present invention relates to a hollow concrete girder and a girder bridge supported by the new structure.

Among the types of bridges, there are girder bridges that allow the girders to support the bottom plate of the bridge. In general, in such a girder bridge, the upper part is opened to utilize a U-shaped beam having a U-shaped cross-sectional structure as a girder. Such a U-shaped girder is mainly made of concrete, Figure 1a is an example of a U-shaped girder used in the conventional girder bridge, a perspective view of a U-shaped concrete girder 100 made of concrete is shown, Figure 1b Some schematic cross-sectional views of the girder bridge fabricated using the U-shaped girders of FIG. 1A are shown.

In constructing a girder bridge, recently, a method of manufacturing a U-shaped girder 100 as a precast factory, transferring it to a bridge construction site, and installing the girder bridge on a pier or shift is completed. However, in the case of the conventional U-shaped girder 100 as described above, since the upper portion has an open shape from the factory production to the field installation, the torsional rigidity is low. Therefore, when the U-shaped girder 100 is transported or mounted on a pier, the U-shaped girder 100 may be deformed or cracked due to a torsional load, and thus the girder itself may be damaged.

On the other hand, after mounting the U-shaped girder 100 to the piers, etc., as shown in Figure 1a and 1b, to install an additional concrete plate member 101 or formwork on the open upper surface of the U-shaped girder 100 After installation, the bridge bottom plate 102 is constructed using the site-cast concrete on the top. Thus, in the conventional U-shaped girder 100, in order to pour the bottom plate concrete, there is a hassle to install a separate concrete plate member 101 or formwork.

The present invention was developed in order to overcome the problems and disadvantages of using the conventional U-shaped girders in the girder bridge supported by the concrete girder and the girder, specifically, to improve the rigidity of the girder using a steel pipe An object of the present invention is to provide a hollow concrete girder and a girder bridge using the same structure that can prevent damage to the girder due to torsion, buckling, etc. that may occur during mounting of the girder.

In addition, in the present invention, in order to simplify the reinforcement of the reinforcing bars and to install the site-cast concrete or precast bottom plate in the upper part of the girder, it is not necessary to install a separate plate member or formwork hollow to improve the workability and economic efficiency An object of the present invention is to provide a concrete girder and a girder bridge using the same.

In order to achieve this object, in the present invention, as a hollow concrete girder to support the bottom of the girder bridge, a steel pipe is disposed in the center to form a hollow, the top of the steel pipe is exposed to the upper surface of the girder; A shear connection member is integrally installed at the top of the exposed steel pipe; A wing plate having a predetermined width is formed on the upper left and right sides of the girder; A hollow concrete girder is provided which has a structure in which a tension member is disposed in the longitudinal direction and prestress is introduced. In the present invention, the steel pipe may be made of a general structural steel pipe to increase the rigidity, it may also be used corrugated steel pipe (wrinkled steel pipe) to enhance the bonding force with the concrete.

In the present invention, there is provided a hollow concrete girder bridge composed of the above-described hollow concrete girder, and the concrete bottom plate supported by the girder.

Hereinafter, with reference to the accompanying drawings will be described the configuration and effect of the present invention.

Figure 2a is a schematic perspective view of the girder bridge manufactured by steel pipe reinforced hollow concrete girder 1 according to the present invention. FIG. 2B is a schematic cross sectional view along line A-A of FIG. 2A, and FIG. 2C is a schematic cross sectional view along line B-B of FIG. 2A.

Hollow concrete girder 1 according to the present invention, instead of the U-shaped concrete girder 100 structure as shown in Figure 1a, has a new structure as follows. Specifically, the hollow concrete girder 1 has a structure in which a steel pipe 10 is disposed in the center thereof to form a hollow. That is, the portion corresponding to the inner hollow of the conventional U-shaped concrete girder 100 shown in Figure 1a, as shown in Figure 2a and 2b in the present invention, is formed by arranging the steel pipe 10 having a predetermined thickness It is. A wing plate 11 having a predetermined width is formed on the left and right sides of the hollow concrete girder 1. It is also preferable to reinforce the hollow concrete girder 1 by applying a tension member 14 in the longitudinal direction and applying prestress.

The girder bridge of the present invention is a hollow concrete girder (1) made of precast so as to have the above-described structure is lifted by a crane or the like, one or a plurality of transverse directions between the bridge piers or between the bridge piers and the shift, and the concrete on the top The bottom plate 2 is installed to have a structure completed. The bottom plate 2 installed on the hollow concrete girder 1 is made of cast-in-place concrete or precast concrete, and a solid shear connection must be made between the bottom plate 2 and the hollow concrete girder 1. .

To this end, in the present invention, when arranging the steel pipe 10, the top of the steel pipe 10 is exposed to the upper surface of the girder 1, the shear connection member 12, such as studs, such as welding method It is to be integrally installed on the upper surface of the exposed steel pipe (10) through. According to such a configuration, when the bottom plate 2 is installed, the shear connecting member 12 is coupled to the bottom plate, so that the hollow concrete girder 1 and the bottom plate 2 make a strong shear connection. If the bottom plate 2 is made of a precast bottom plate instead of the cast-in-place concrete, a groove is formed in the precast bottom plate at the position where the shear connecting member 12 exists, and the shear connecting member 12 is formed. ) Is inserted into the groove to fill the filler material so that the shear connecting member 12 is integral with the bottom plate (2).

On the other hand, apart from the above configuration, the concrete portion around the steel pipe 10 extends the internal reinforcing bar 13 or exposes the shear reinforcing bar made by using a separate reinforcing bar to the top to function as a shear connection member. It can also be configured to do so.

In the present invention, the steel pipe may be composed of a general structural steel pipe to increase the rigidity and may be used corrugated steel pipe (wrinkled steel pipe) in order to enhance the bonding force with the concrete.

As described above, in the present invention, since the steel pipe 10 is used in forming a hollow in the concrete girder 1 under the bridge, there are very advantageous advantages as follows.

First, since the steel pipe 10 itself has rigidity, the rigidity of the girder is higher than that of the conventional U-shaped girder. Therefore, in the case of the construction of the girder 1, the conventional U-shaped girder is likely to be damaged by torsion, etc., and the durability may be reduced after the completion of the bridge, but in the present invention, the girder 1 may be damaged during the construction of the bridge. The effect is very low. In addition, even after the construction of the girder 1 is completed, the rigidity of the steel pipe 10 itself is exhibited, and the durability of the girder bridge is enhanced, and the cross-sectional reduction effect of the girder 10 is also exerted, thereby reducing the height of the bridge and the reinforcing bars Installation can be simplified.

In the conventional U-shaped girder to form the hollow inside, as well as the outside, the formwork must be installed on the inside of the girder, which is cumbersome and expensive. However, in the present invention, since the steel pipe 10 performs the function of the formwork, it is not necessary to install the internal formwork, and only the external formwork can be installed to manufacture the girder. Therefore, it is possible to solve the disadvantages of the work, the cost, etc. due to the formwork installation.

In particular, when constructing the bottom plate by the cast-in-place concrete on top of the girder, in the conventional U-shaped girder to install a separate plate member 101 or formwork in order to prevent the upper portion of the open hollow, but the present invention In the steel pipe (10) serves as a formwork, when installing the floor plate by the cast-in-place concrete, there is no need to install a separate plate member or formwork can be manufactured economically and efficiently.

Although the embodiments of the present invention have been described above, the present invention is not limited to the described embodiments, and free modifications and improvements can be made within the spirit and utility model registration claims of the present invention.

Claims (2)

Hollow concrete girder (1) for supporting the bottom of the girder bridge, Steel pipe 10 is disposed in the center to form a hollow, the top of the steel pipe 10 is exposed to the upper surface of the girder 1; A shear connecting member 12 is integrally installed at the top of the exposed steel pipe 10; Wing plates 11 having a predetermined width are formed on the upper left and right sides of the girder 1; Hollow concrete girder, characterized in that the tension member 14 is disposed in the longitudinal direction and has a structure in which prestress is introduced. Girder bridge composed of the bottom plate (2) and the concrete girder (10) supporting the lower part, The concrete girder 10, the steel pipe 10 is disposed in the center to form a hollow, the top of the steel pipe 10 is exposed to the upper surface of the girder (1); A shear connecting member 12 is integrally installed at the top of the exposed steel pipe 10; Wing plates 11 having a predetermined width are formed on the upper left and right sides of the girder 1; Hollow concrete girder bridge, characterized in that the tension member 14 is disposed in the longitudinal direction has a structure in which prestress is introduced.

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