KR100499019B1 - Concrete-Filled Steel Pipe Girder - Google Patents

Abstract

The present invention relates to a concrete filled steel pipe girders that can be applied to a general girder (reinforced concrete, steel) bridge, and serves as a formwork during construction of the steel pipe 10 and the upper bottom plate 70 filled with concrete therein The steel plate 10 is installed in the longitudinal direction of the steel pipe 10 between the support plate 20 and the support plate 20 welded in pairs to the upper outer circumferential surface in the longitudinal direction of the steel pipe 10, and the steel pipe 10 is the upper bottom plate 70. It is characterized in that it comprises a plurality of shear connecting member 30 for connecting, and compared to the bridge composed of ordinary steel or reinforced concrete material, compressive strength, shear strength, bending strength, tensile strength, crack resistance, vibration resistance characteristics, etc. Its superiority makes it possible to replace the girder bridges that are used in most highways, roads and railway bridges, and because the height of the girder is small, it is also very good for use in overbridges.

Description

Concrete-Filled Steel Pipe Girder

The present invention relates to girder bridges, and more particularly to concrete filled steel pipe girders applicable to general girder (concrete, steel) bridge.

The girder's role in bridges is an important bridge element that serves to transfer the loading loads such as fixed loads and vehicle loads acting on the upper part of bridges or alternately.

Conventional girder bridges can be classified into steel girder and concrete girder bridge. Among them, steel girder bridge is welded and assembled using a large number of steels, so it is expensive in terms of economics, and it is easy to be damaged by buckling due to compression load when compressive load is applied. Therefore, reinforcement such as stiffener is required, and manufacturing and construction are complicated and rigidity There is a problem such as deflection and vibration is small, there is a disadvantage that must be painted on the steel surface steadily during maintenance.

On the other hand, in case of concrete girder bridge, the weight of concrete itself becomes heavy and the weight acting on the entire bridge becomes uneconomical for the design of the bridge.In addition, the construction is complicated by all the processes in the field, and the characteristics of concrete are causing problems such as cracking. .

The present invention has been devised to solve the problems of the existing bridge as described above, not only excellent in strength and rigidity, but also excellent in usability against vibration, deflection and cracking, can lower the height of the girder, and provide a beautiful appearance. Its purpose is to provide bridge girder.

The object of the present invention serves as a formwork during the construction of the steel pipe and the upper bottom plate filled with concrete in the longitudinal direction of the steel pipe between the support plate and the support plate welded in pairs on the upper peripheral surface in the longitudinal direction of the steel pipe. It is achieved by a concrete filled steel pipe girder that is installed and comprises a plurality of shear connectors for connecting the steel pipe to the upper bottom plate.

In addition, an object of the present invention includes an inner steel pipe having an outer diameter smaller than the inner diameter of the outer steel pipe and the outer steel pipe and a spacer for maintaining the gap between the outer steel pipe and the inner steel pipe and the concrete between the outer steel pipe and the inner steel pipe. Filled steel pipe, and the support plate welded in pairs on the upper outer peripheral surface in the longitudinal direction of the steel pipe and acts as a formwork during the construction of the upper bottom plate, and is installed in the longitudinal direction of the steel pipe between the support plate and the steel pipe is the upper bottom plate It is achieved by a concrete filled steel pipe girder comprising a plurality of shear connection material installed on the outer circumferential surface of the outer steel pipe to connect to.

The above and other objects, specific advantages, and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments associated with the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the concrete filled steel pipe girder according to the present invention will be described in detail.

1 is a cross-sectional view showing a first embodiment of a concrete filled steel pipe girder according to the present invention, Figures 2a to 2d is a perspective view showing various embodiments of the shear connector.

As shown in FIG. 1, in the first embodiment of the concrete filled steel pipe girder according to the present invention, the steel pipe 10 filled with concrete is welded to the inner circumferential surface of the steel pipe 10, and the steel pipe 10 and concrete A plurality of connectors 12 for maximizing the synthesis of the (11) and the support plate welded in pairs to the upper outer peripheral surface in the longitudinal direction of the steel pipe 10 and serves as a formwork during the construction of the upper bottom plate (70) It is installed in the longitudinal direction of the steel pipe between the 20 and the support plate 20, and comprises a plurality of shear connector 30 for connecting the steel pipe 10 to the upper bottom plate (70).

Steel pipe 10 is a general carbon steel pipe is mainly used as a circular steel pipe, but can also be produced by pressing or rolling the steel plate to form the unevenness on the inner, outer peripheral surface and then welded. In addition, the inner circumferential surface of the steel pipe 10 is cut during the production of the steel pipe to form irregularities such as a sawtooth shape, a wavy pattern, or the like, or a plurality of reinforcing ribs formed through holes at regular intervals in the steel pipe 10 to have a length of the steel pipe. By installing in the direction, the bonding strength between the steel pipe and the concrete can be enhanced to increase the compounding action.

By filling the concrete 11 inside the steel pipe 10 to increase the bending strength and rigidity by the restraining effect of the filled concrete and to reduce the noise or vibration. In the case of the continuous bridge in filling the concrete (11), the steel pipe girders near the middle point is filled with light lightweight concrete, and the middle of the span is filled with air mortar (air mortar) to reduce the weight. Therefore, it acts as a composite girder of steel pipe and concrete in the constant moment region of the span center part.

And in order to maximize the composite action of the filled concrete (11) and the steel pipe (10) by installing a plurality of connectors 12 inside the steel pipe (10) to maximize the composite action of the steel pipe (10) and concrete (11). In this embodiment, as the connector 12, a stud connector is welded to the inner circumferential surface of the steel pipe. However, the connector 12 is not limited thereto, and the inner circumferential surface of the steel pipe is cut, pressed, or rolled in the manufacture of the steel pipe itself. Can act as a connector. In addition, steel bar, deformed steel, steel plate, L-shaped steel, T-shaped steel, Z-shaped steel, c-shaped steel, bent bar or spiral reinforcing bar may be used, as shown in 2a and 2d web of steel sheet, T-shaped steel or Z-shaped steel ( It is preferable to pierce the hole 33 in the 32 or to tear apart the iron plate at the time of processing the hole 33 itself, the flange 34 is torn in various shapes to maximize the composite action with concrete.

The upper plate 70 is welded to the upper surface of the steel pipe 10 in order to cast concrete, the support plate 20 bent a pair of steel plates in the longitudinal direction of the steel pipe, and serves as a form of formwork. And the upper surface of the support plate 20 may form a concave-convex shape of a circular, elliptical, star or comb for the composite action with the concrete, the upper surface in the longitudinal direction for the shear connection with the upper plate 70 A plurality of shear connecting members 30 are welded and installed.

The upper bottom plate 70 is joined by a plurality of shear connecting members 30 supported by the concrete filled steel pipe 10 and welded longitudinally to the top surface of the filled steel pipe girder. As a result, the cross section of the entire top bottom plate 70 and the filled steel tube girder 10 can be effectively used for the tensile and compressive forces by connecting the filled steel pipe girder 10 and the upper bottom plate 70 to the total load. have. The shear connector 30 is shown using a stud connector in this embodiment, but is not limited to this, steel bar, deformed reinforcing bar, steel sheet, L-shaped steel, T-shaped steel, Z-shaped steel, c-shaped steel, bent steel bar or spiral reinforcement is used Can be. Also, as shown in FIGS. 2A and 2D, holes 33 are drilled in the web 32 of the steel sheet, the T-shaped steel or the Z-shaped steel, or the steel plates are staggered apart when the hole 33 itself is processed, and the flange 34 is torn. It is desirable to maximize the compounding effect with concrete by tearing into various shapes.

3A and 3B are perspective views in which an intermediate reinforcement support plate or a diaphragm steel plate is installed in a constant moment section or a parent moment section.

As shown in FIGS. 3A and 3B, a plurality of intermediate reinforcement support plates 40 may be further installed on the lower surface of the support plate 20 in the longitudinal direction of the steel pipe 10 in the square mat section, and the steel pipe 10 in the parent cement section. The stiffness of the steel pipe can be improved by further installing a plurality of diaphragm steel sheets 50 in the longitudinal direction of the upper surface of the steel pipe 10 between the pair of support plates 20. In this case, the arrangement of the transfer connecting member 30 welds the stud connector 30 to the upper surface of the steel pipe 10 in the constant moment section, and the perforated steel plate 30 having a through hole at a predetermined interval in the parent section. It can be combined by welding in the longitudinal direction of the steel pipe (10).

Figure 4a shows a second embodiment of the concrete filled steel pipe girder according to the present invention, the inner steel pipe 18 and the outer steel pipe having an outer diameter smaller than the inner diameter of the outer steel pipe 16 and the outer steel pipe 16 ( And a spacer 19 for maintaining a gap between the inner steel pipe 18 and the inner steel pipe 18, and the steel pipe 10 filled with the concrete 11 between the outer steel pipe 16 and the inner steel pipe 18; It serves as a formwork during construction of the upper bottom plate 70 and is installed between the support plate 20 and the support plate 20 welded in pairs to the upper outer peripheral surface in the longitudinal direction of the outer steel pipe 16, the steel pipe ( It comprises a plurality of shear connector 30 welded to the outer peripheral surface of the outer steel pipe 16 to connect 10) to the upper bottom plate (70).

The inner circumferential surface of the outer steel pipe (16) or the outer circumferential surface of the inner steel pipe (18) is cut during the manufacture of the steel pipe to form irregularities such as sawtooth shape, wave pattern in the circumferential direction and the longitudinal direction of the steel pipe and spiral shape, etc. Synthetic action can be increased by increasing the adhesion strength of.

And the spacer 19 is installed spaced apart at predetermined intervals at regular intervals in the longitudinal direction between the inner steel pipe 18 and the outer steel pipe 16, the central opening of the inner diameter slightly larger than the outer diameter of the inner steel pipe The steel plate of the square or round formed is divided and installed by welding between the inner steel pipe 18 and the outer steel pipe 16. The number of the spacers 19 is determined by the shear force, and functions to maintain the gap between the outer steel pipe 16 and the inner steel pipe 18 and to integrate the composite with the concrete.

The intermediate reinforcing support plate 40 and the diaphragm steel plate 50 may be further installed in the concrete filled steel pipe girder according to the second embodiment, and the specific configuration is the same as that of the concrete filled steel pipe girder according to the first embodiment.

Other specific configuration of the support plate 20, the shear connector 30 is the same as the concrete filled steel pipe girder according to the first embodiment.

On the other hand, in order to increase the strength of the concrete-filled steel pipe girders, as shown in Figure 4b by filling the concrete 11 in the inner steel pipe 18 can be improved durability and usability as a girder.

Hereinafter will be described the action of the concrete filled steel pipe girders according to the present invention.

 The present invention is an invention that takes full advantage of the advantages of steel and concrete, by the composite action of the steel pipe and the interior filled concrete, the strength of the filled concrete due to the restraining effect of the steel pipe and the local buckling prevention effect of the steel pipe by the filled concrete And it has excellent performance in terms of structural performance, such as deformation capacity, and can increase the efficiency of the steel pipe because the strength is greatly increased without increasing the cross section.

In addition, by maximizing the synthesizing effect between the steel pipe and the upper bottom plate concrete, it is possible to make the shear surface of the upper bottom plate and the girder effective, thereby forming an excellent structure against the compressive force, tensile force, crack, vibration and noise coming from the top.

On the other hand, in the case of double steel pipe girders, when the concrete is not filled in the inner steel pipes can be used by placing wires, cables, piping, etc. for various equipment therein.

As described above, the present invention has a high cost due to the increase in steel weight, which is a problem of general steel girder bridges, reinforcement of numerous stiffeners, vibration and noise characteristics of steel girder, and workability in concrete girder bridges, and its own weight. It is composed by filling concrete inside the steel pipe to solve the problem of increase of load due to excessiveness and cracking problem of concrete characteristics, and it is composed of compressive strength, shear strength, flexural strength, tensile strength, crack resistance, etc. This superiority can be used to replace the girder bridges used in most highways, roads and railway bridges, and because the girder's height is not only small but also beautiful in terms of aesthetics, its use in the overbridge is also very effective.

In addition, the service life of the bridge can be increased, as well as the production cost can be reduced and construction time can be shortened, which can greatly contribute to the reduction of construction cost.

Although the present invention has been described with reference to the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims will include any modifications or variations that fall within the spirit of the invention.

1 is a cross-sectional view showing a first embodiment of a concrete filled steel pipe girder according to the present invention,

2A to 2D are perspective views illustrating various embodiments of a shear connector,

Figure 3a is a perspective view of the intermediate reinforcement support plate is installed in the constant moment section,

Figure 3b is a perspective view of installing a diaphragm steel sheet in the parent section;

Figure 4a is a cross-sectional view showing a second embodiment of a concrete filled steel pipe girder according to the present invention,

Figure 4b is a cross-sectional view showing a modification of the second embodiment of a concrete filled steel pipe girder according to the present invention.

<Explanation of Signs of Major Parts of Drawings>

10: steel pipe 12: connector

16: outer steel pipe 18: inner steel pipe

20: support plate 30: shear connector

70: bottom plate

Claims (17)

Steel pipe 10 is installed in the longitudinal direction of the inner circumferential surface of the plurality of reinforcing ribs formed through the predetermined intervals and filled with concrete; Support plate 20 which serves as a formwork during the construction of the upper bottom plate 70 and a pair of welded to the upper outer peripheral surface in the longitudinal direction of the steel pipe (10); Concrete filled steel pipe is installed between the support plate 20 in the longitudinal direction of the steel pipe 10 and comprises a plurality of shear connection material 30 for connecting the steel pipe 10 to the upper bottom plate 70 Girder. delete delete delete delete delete Steel pipe 10 is filled with concrete therein; Support plate 20 which serves as a formwork during the construction of the upper bottom plate 70 and a pair of welded to the upper outer peripheral surface in the longitudinal direction of the steel pipe (10); And And a plurality of shear connection members 30 installed in the longitudinal direction of the steel pipe 10 between the support plates 20 to connect the steel pipe 10 to the upper bottom plate 70. The shear connector 30 is to pierce the hole 33 in the web 32 of the steel plate, T-shaped steel or Z-shaped steel or to tear apart the iron plate when processing the hole 33 itself, the flange 34 is torn in various shapes Concrete filled steel pipe girders, characterized in that formed. delete delete Steel pipe 10 is filled with concrete therein; Support plate 20 which serves as a formwork during the construction of the upper bottom plate 70 and a pair of welded to the upper outer peripheral surface in the longitudinal direction of the steel pipe (10); A plurality of shear connection members (30) installed in the longitudinal direction of the steel pipe (10) between the support plates (20) for connecting the steel pipe (10) to the upper bottom plate (70); And Is welded to the inner circumferential surface of the steel pipe 10 includes a plurality of connectors 12 for maximizing the composite action of the steel pipe 10 and the concrete (11), The connector 12 drills the holes 33 in the web 32 of the steel plate, the T-shaped steel or the Z-shaped steel, or tears the iron plate apart when the hole 33 itself is processed, and the flange 34 is torn in various shapes. Concrete filled steel pipe girders, characterized in that. Steel pipe 10 is filled with concrete therein; Support plate 20 which serves as a formwork during the construction of the upper bottom plate 70 and a pair of welded to the upper outer peripheral surface in the longitudinal direction of the steel pipe (10); And In the concrete-filled steel pipe girder comprising; a plurality of shear connector 30 is installed in the longitudinal direction of the steel pipe 10 between the support plate 20 for connecting the steel pipe 10 to the upper bottom plate 70 , In the constant moment section, a plurality of intermediate reinforcing support plates 40 are installed on the lower surface of the support plate 20 in the longitudinal direction of the steel pipe 10, and in the parental section, the plurality of diaphragm steel plates 50 in the longitudinal direction of the steel pipe 10. ) Is a concrete filled steel pipe girder, characterized in that installed on the upper surface of the steel pipe (10) between the pair of support plates (20). The method of claim 11, Arrangement of the shear connector 30 welds the stud connector 30 to the upper surface of the steel pipe 10 in the constant moment section, and the perforated steel plate 30 formed through the hole at a predetermined interval in the parent moment section of the steel pipe 10 Concrete filled steel pipe girders, characterized in that welded in the longitudinal direction. A predetermined interval in the longitudinal direction between the inner steel pipe 18 and the inner steel pipe 18 and the outer steel pipe 16 having an outer diameter smaller than the inner diameter of the outer steel pipe 16 and the outer steel pipe 16 at a predetermined interval It is installed spaced apart to include a spacer 19 for maintaining the gap between the outer steel pipe 16 and the inner steel pipe 18, the concrete 11 between the outer steel pipe 16 and the inner steel pipe 18 Filled steel pipe 10 and; A support plate 20 which serves as a formwork during construction of the upper bottom plate 70 and is welded in pairs to the upper outer circumferential surface in the longitudinal direction of the steel pipe 10; A plurality of shear connecting members 30 installed in the longitudinal direction of the steel pipe 10 between the steel plate 20 and installed on the outer circumferential surface of the outer steel pipe 16 to connect the steel pipe 20 to the upper bottom plate 70. Concrete filled steel pipe girder, characterized in that comprises a. The method of claim 13, The spacer 19 is a concrete-filled steel pipe girder, characterized in that formed by dividing the square or round steel plate formed with a central opening of the inner diameter slightly larger than the outer diameter of the inner steel pipe. The method of claim 13, Concrete filled steel pipe girder, characterized in that the concrete 11 is also filled in the inner steel pipe (18). The method of claim 13, Concrete filled steel pipe girders, characterized in that irregularities are formed on the upper surface of the support plate 20 for the composite action with the upper bottom plate (70). The method of claim 13, The shear connector 30 is to pierce the hole 33 in the web 32 of the steel plate, T-shaped steel or Z-shaped steel or to tear apart the iron plate when processing the hole 33 itself, the flange 34 is torn in various shapes Concrete filled steel pipe girders, characterized in that formed.