KR102256430B1 - Steel Pipe Girder and Method for fabrication of Bridges using thereof - Google Patents

Abstract

The present invention relates to a girder for a pedestrian bridge using a steel pipe, and more particularly, to a steel pipe girder that is easier to construct and has improved structural performance compared to arranging a structural member inside the steel pipe by forming a space using a plate on a steel pipe and arranging a structural member in this space, and a construction method of a bridge using the same. The present invention relates to a steel pipe girder used for a pedestrian bridge or a bicycle bridge, comprising: a first member that is a long circular steel pipe in one direction; a second member which is a pair of steel plates coupled to the first member so as to be disposed symmetrically with respect to an imaginary straight line passing through the center of the cross-section of the first member; and a third member which is a steel plate vertically coupled to the pair of second members.

Description

Construction method of a sidewalk or bicycle bridge, and a sidewalk or bicycle bridge constructed by the same TECHNICAL FIELD [Steel Pipe Girder and Method for fabrication of Bridges using thereof]

The present invention relates to a steel pipe girder and a construction method of a bridge using the same, and more particularly, to arrange a structural member inside a steel pipe by forming a space using a plate continuous with a vertical member, a crossbeam on the steel pipe, and arranging the structural member in this space. Compared to this, the present invention relates to a steel pipe girder with improved stiffness enhancement effect, simple construction, and improved structural performance, and a construction method of a bridge using the same.

The girders of bridges using steel pipes have been developed in various forms starting from the form of installing a top plate on the steel pipes. A steel-composite-type girder was released by pouring concrete inside the steel pipe, and a girder in the form of a combined structure for applying prestress to the steel pipe was also disclosed. A steel composite type girder was also disclosed in which steel plates are bonded to the upper part of a steel pipe and the steel plates are embedded in concrete.

In order to expect structural performance by pouring concrete inside the steel pipe, the synthesis of steel pipe and concrete is important, and for this, it is necessary to join a number of studs inside the steel pipe by welding. Welding inside a steel pipe cannot be done in a small-sized steel pipe because the inner diameter of the steel pipe must be secured to some extent, and even if the inner diameter of the steel pipe is large, it is difficult to weld in a space close to a sealed space, and there is a risk of safety accidents, etc. It's not easy.

The present invention was devised to solve the problems of the above-described background technology, and the problem to be solved by the present invention is a steel pipe girder that is structurally stable and easy to construct while using a steel pipe of a relatively small cross section, and construction of a bridge using the same. Is to provide a way.

The present invention as a means of solving the above problems,
In the construction method of a pedestrian bridge or bicycle bridge that is a continuous bridge,
A first member that is a circular steel pipe that is long in one direction,
A second member that is a pair of steel plates coupled to the first member so as to be disposed in a line symmetry with respect to an imaginary straight line passing through the center of the cross section of the first member,
A third member which is a steel plate vertically coupled to the pair of second members,
Tension means for providing a compressive force to the steel pipe girder installed in a space formed by the first member, the second member and the third member of the positive moment section of the footpath or bicycle bridge,
A steel pipe girder preparing step of manufacturing a steel pipe girder including studs formed in a positive moment section of the footpath or bicycle bridge, but manufacturing the first member and the second member in a combined state;
Including; a transfer installation step of transferring and installing the steel pipe girder prepared in the steel pipe girder preparation step to the site,
In the transfer installation step,
Before combining the third member with the second member, a tension step of providing a tension force to the positive moment section of the sidewalk or bicycle bridge, and a concrete pouring step of pouring concrete into the positive moment section of the sidewalk or bicycle bridge,
It provides a construction method of a sidewalk or bicycle bridge, characterized in that the second member and the third member are combined after the tensioning step and the concrete pouring step, and a sidewalk or bicycle bridge constructed by the construction method.

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According to the present invention, it is possible to provide a steel pipe girder that is structurally stable and easy to construct while using a steel pipe having a relatively small cross section, and a method of constructing a bridge using the same.

1 is a view for explaining the arrangement of a first member, a second member and a third member of a steel pipe girder according to an embodiment of the present invention.
Figure 2 is a perspective view showing a state in which a crossbeam is coupled to the steel pipe girder shown in Figure 1;
3 is a view for explaining a steel pipe girder used in a continuous bridge.
4 is a cross-sectional view of a steel pipe girder according to a second embodiment of the present invention.

Hereinafter, by describing a steel pipe girder according to a preferred embodiment of the present invention with reference to the drawings, specific details for carrying out the present invention will be provided.

1 is a view for explaining the arrangement of the first member, the second member and the third member of the steel pipe girder according to an embodiment of the present invention, Figure 2 is a state in which a crossbeam is coupled to the steel pipe girder shown in FIG. 3 is a perspective view illustrating a steel pipe girder used in a continuous bridge.

The steel pipe girder according to the present embodiment is a steel pipe used for construction of bridges such as pedestrian bridges or bicycle bridges having a relatively small live load, and is particularly used for construction of a continuous bridge as shown in FIG. It consists of a two member (20), a third member (30), tension means (40) and concrete (50).

The first member 10 is a circular steel pipe that is long in one direction as shown in FIG. 2.

The second member 20 is a pair of steel plates coupled to the first member 10 as shown in Figs. 1 and 2, and is a virtual straight line passing through the center o of the first member 10 Arranged in line symmetry with respect to (c).

The third member 30 is a steel plate that is vertically coupled to the pair of second members 20 as shown in FIG. 1.

2 is a perspective view showing a state in which the crossbeam 1 is coupled to the assembly of the first member 10, the second member 20, and the third member 30 described above. As described above, the steel pipe girder according to this embodiment is used for construction of a continuous bridge, but only a part of the girder is shown in FIG. 2.

The tension means 40 is installed in the negative moment section of the girder to provide a compressive force to the girder.

Figure 3 (a) shows a girder disposed on a continuous bridge, (b) is a brief moment diagram, (c) is a cross-sectional view of the portion marked I and II in Figure 3 (a).

In the continuous bridge, the continuous part is the positive moment section, and in the negative moment section, the tension force acts on the upper edge of the girder and the compressive force acts on the lower edge.

The tension means 40 is installed in the space formed by the first member 10, the second member 20 and the third member 30, as shown in (a) and (c) of Figure 3, It consists of a fixing plate 41, a fixing means 42 and a tension member 43.

The fixing plate 41 is a plate that is vertically coupled to the second member 20, the fixing means 42 is configured to fix the tension member 43, and the tension member 43 is a fixing member 42 in a state in which a tensile force is applied. ) To provide compression force to the upper edge of the girder.

As the tension member 43, a stranded wire or a steel rod may be used, and a fixing means 42 is used according to the tension member used. When using the stranded wire as the tension member 43, a wedge-shaped fixing means 42 may be used, and when using the steel rod as a tension member, a fixing means 42 for fixing the steel rod may be used.

The tension means 40 is installed before the second member 20 and the third member 30 are combined, and the second member 20 and the third member 30 are combined and pressurized to increase the convenience of construction. I can make it.

Conventionally, in the invention, there were many cases of installing tension means on a steel pipe, but when installing tension means on a steel pipe, fixing portions were installed at both ends of the steel pipe. In order to install the tensioning means inside the steel pipe in the positive moment section of the continuous bridge as in this embodiment, tensioning work must be performed inside the steel pipe, but it is difficult to move equipment such as hydraulic jacks inside the steel pipe, and There are many difficulties in work, such as having to weld the configuration, but in this embodiment, this difficulty can be overcome by performing work before the second member 20 and the third member 30 are joined. Before the third member 30 is coupled to the second member 20, the upper portion of the second member 20 is opened, so that the installation work of the tensioning means 40 can be easily performed.

The position of the fixing plate 41 of the tension member 40, the type of the tension member 43, and the magnitude of the tensile force applied to the tension member 43 are design factors.

The concrete 50 is poured/cured in a space formed by the first member 10, the second member 20, and the third member 30 in the positive moment section of the girder. A shear connector 51 for synthesizing the concrete 50 and the first member 10 and the second member 20 is installed.

The concrete 50 is also poured before the second member 20 and the third member 30 are combined, similarly to the pressure by the tensioning means 40, so that the concrete 50 can be easily placed. do. The first member 10 and the second member 20 are combined, and before the second member 20 and the third member 30 are combined, the upper part of the second member 20 is open. Si) installation or pouring of concrete 50 can be made very easily. The pouring of the concrete 50 may be carried out in a factory that manufactures a steel pipe girder, or may be carried out in the field, and the pouring time may be determined in consideration of the working environment or transportation.

Meanwhile, a shear connector may be installed on the third member 30 as well. In this case, before the concrete 50 is hardened, the third member 30 is mounted on the upper portion of the second member 20 and the second member 20 ) And the third member 30, the second member 20 and the third member 30 are joined by welding after cleaning up the leaked concrete.

As described above, a compressive force acts on the upper edge of the girder in the positive moment section. Concrete ( Placing/curing 50) makes the shear surface of the concrete placed on the compression side effective, and the concrete 50 supports part of the compressive force, increasing the effective ratio of concrete compared to pouring concrete inside the steel pipe, resulting in structural efficiency. Becomes higher.

The pouring position of the concrete 50 or the strength of the concrete, like the tension means 40, is a design factor determined according to the design load of the bridge.

In the case of the steel pipe girder according to the present embodiment described above, the second member 20, the third member 30, the tension means 40, the concrete 50, etc. are added to the first member 10, which is a steel pipe. A steel pipe having a relatively small cross section can be used, and even if the second member 20 or the third member 30 is considered, a bridge having a low shape height can be manufactured, and the effect of being able to use the cross section efficiently occurs.

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Hereinafter, an embodiment of a method for constructing a bridge using the steel pipe girder described above will be briefly described.

The construction method of the bridge according to the present embodiment is a method of constructing a continuous bridge as a construction method of a bridge using the steel pipe girder of the above-described embodiment, and includes a steel pipe preparation step, a transfer installation step, a concrete pouring step, and a tension step.

The step of preparing the steel pipe girder is a step of preparing a steel pipe girder including the first member 10, the second member 20, the third member 30, and the tensioning means 40 described above. In this embodiment, the first member 10 and the second member 20 are combined in a factory, and a shear connector 51 is installed at the part where concrete is to be placed in the factory, and a fixing plate is installed among the tensioning means. You can make it in one state.

The transfer installation step is a step of transporting the steel pipe girder prepared in the steel pipe girder preparation step to the site and then installing it in the part where the bridge is to be installed.

In the concrete pouring step, after the first member 10 and the second member 20 are installed, the concrete 50 is poured and cured in the portion where the positive moment acts as shown in FIG. 3. The concrete 50 is poured before the second member 20 and the third member 30 are combined.

In the tensioning step, before the second member 20 and the third member 30 are combined, a part of the tensioning means (tension material and anchorage) is installed, and the second member 20 and the third member 30 are combined. After that, a compressive force is provided to the negative moment section of the girder by using a tension means.

After the above-described tension step is completed, the construction of the bridge is completed by installing the upper plate on the upper part of the third member 30 and installing structures such as handrails.

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In the above-described embodiment, a steel pipe girder and a bridge construction method applicable to a continuous bridge have been described, but the present invention is not necessarily applicable to a continuous bridge, and can be applied to a short span bridge or a simple bridge. Of course, in short-span or simple bridges, the means of tension need not be included.

On the other hand, in the case of the above-described embodiment in the construction method of the bridge, it is described that concrete is poured after the assembly of the first member 10 and the second member 20 is installed. It can also be transferred to.

Although detailed contents for carrying out the present invention have been provided by describing the preferred embodiments of the present invention above, it can be embodied in various types of steel pipe girders and construction methods of bridges using the same within the scope not contrary to the technical idea of the present invention. have.

10: first member 20: second member
30: third member 40: tension means
50: concrete

Claims (11)

In the construction method of a pedestrian bridge or bicycle bridge that is a continuous bridge,
A first member that is a circular steel pipe that is long in one direction,
A second member that is a pair of steel plates coupled to the first member so as to be disposed in a line symmetry with respect to an imaginary straight line passing through the center of the cross section of the first member,
A third member which is a steel plate vertically coupled to the pair of second members,
Tension means installed in the space formed by the first member, the second member, and the third member of the positive moment section of the footpath or bicycle bridge to provide a compressive force to the steel pipe;
A steel pipe girder preparing step of manufacturing a steel pipe girder including studs formed in a positive moment section of the footpath or bicycle bridge, but manufacturing the first member and the second member in a combined state;
Including,
In the transfer installation step,
Before combining the third member with the second member, a tension step of providing a tension force to the positive moment section of the sidewalk or bicycle bridge, and a concrete pouring step of pouring concrete into the positive moment section of the sidewalk or bicycle bridge,
Construction method of a sidewalk or bicycle bridge, characterized in that coupling the second member and the third member after the tensioning step and the concrete pouring step.
A sidewalk or bicycle bridge constructed by the construction method of claim 1. delete delete delete delete delete delete delete delete delete

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