KR200317932Y1 - Finishing Structure of Steel Composite Girder Bridge with Prestressed Concrete Panel - Google Patents

Abstract

The present invention relates to a structure in which the abdominal surface of a steel composite girder is finished using a lightweight prefabricated abdominal finishing panel rather than concrete in a bridge using a steel composite girder composed of a steel girder and a concrete panel.

In the present invention, the abdominal surface of the steel girder is installed in the bridge using the composite girder in which the steel girder and the concrete panel are integrally integrated so that the abdominal finishing panel perpendicular to the outside of the steel girder is decomposed at a predetermined distance from the abdomen. An abdominal surface finishing structure of a composite girder bridge is provided that surrounds the exterior.

In the finishing structure according to the present invention, instead of covering the abdomen of the steel girders as the site-cast concrete, the abdominal finishing panel made of a lightweight material is used to cover the abdomen, thereby increasing the dead weight due to the covering, No additional work is needed to assemble and dismantle the formwork associated with the use of cast-in-place concrete, and to assemble and dismantle the copper ball. Thus, the total air and cost can be reduced.

Description

Finishing Structure of Steel Composite Girder Bridge with Prestressed Concrete Panel

The present invention relates to the abdominal surface finishing structure of prestressed rigid girder bridges, and more specifically, the abdominal surface of rigid girder concrete in bridges using steel girder with composite steel girder and concrete panel It relates to a structure for finishing using a lightweight prefabricated abdominal finishing panel.

The prestressed steel composite girders are composed of steel girders (generally I-type steel girders) and concrete panels in which prestresses are introduced by the tension of steel wires. Recently, there is a growing interest in the use of bridges, that is, prestressed composite girder bridges, and the increasing use in other building structures.

In the conventional steel composite girders, after the concrete panel is synthesized on the lower flange of the type I steel girder, the abdomen of the type I steel girder is coated with the site-pouring concrete. However, the concrete covering the girder's abdomen only serves to prevent surface corrosion of the steel girder and does not function as an effective section affecting the strength of the girder.

Rather, the site-casting concrete covering the abdomen not only increases dead weight, but also requires additional construction costs because the formwork is to be assembled and dismantled for concrete placing and the assembly and dismantling of the copper ball is required.

In particular, since the concrete of the girder abdomen is poured in a narrow area, there is a problem in that defects due to unfilling of the concrete and the possibility of cracking are present.

On the other hand, as proposed through the Patent Application No. 2003-2505 proposed by the present inventor, in the abdominal portion of the steel girders in a rigid beam or girder can be arranged a tensioned steel wire for continuity of the girder, the effective prestress of the steel wire If there is a loss of steel wire and require retension, there is a limitation that if the girder's abdomen is finished with in-place concrete, as in the prior art, then the retension of the wire is virtually impossible.

The present invention is to overcome the problems and limitations of the prior art as described above, instead of the site-cast concrete for the abdominal coating that does not function as an effective cross-section, it is made of a new lightweight new construction material, and easy to remove and attach By covering the abdomen of the steel composite girder with the prefabricated abdominal finishing panel of the system, the problems of the prior art such as the increase of dead weight and the cost of construction due to the use of the cast-in-place concrete are solved. It is an object of the present invention to provide an abdominal surface finishing structure of a prestressed rigid composite girder bridge with a new structure that can be easily performed when the steel girders need to be retensioned.

1A is a perspective view of a honeycomb girder-type precast concrete panel composite girder having a girder continuity structure proposed by the inventor in Japanese Patent Application No. 2003-2505.

FIG. 1B is a cross-sectional view taken along the line A-A of FIG. 1A.

Figure 2a is a plan view taken along the line B-B of Figure 1a for the right steel girders in the state in which the finishing structure according to the present invention is installed in the steel girders shown in Figure 1a.

FIG. 2B is a cross-sectional view taken along the line C-C in FIG. 2A.

FIG. 2C is a cross-sectional view taken along the line D-D in FIG. 2A.

Figure 3a is a view showing an example of a structure in which the lower end of the abdominal finishing panel is fixed to the connecting bottom plate in the present invention, a detail of circle E of Figure 2b.

Figure 3b is a detailed view corresponding to Figure 3a is a detailed view showing another example of a structure in which the lower end of the abdominal finishing panel is fixed to the connecting bottom plate.

Figure 4 is a view showing the structure of the panel support assembly pin for supporting the side of the abdominal finishing panel in the present invention, a detail of the circle F in Figure 2a.

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

10: abdominal finishing panel 20: upper flange connecting member

100: Steel Girder 101: Steel Beam Abdomen

102: precast concrete panel 111: tension member anchorage

120: connection bottom plate

In the present invention, in order to achieve the above object, in the bridge using a steel composite girders and a composite composite girders integrally synthesized, the abdominal finishing panel perpendicular to the outside of the abdomen of the steel girder is disassembled at a predetermined interval from the abdomen An abdominal surface finishing structure of a composite girder bridge is provided, which is installed so as to surround the outside of the abdominal surface of the steel girder.

The finishing structure of the present invention is a honeycomb girder having a honeycomb shape in which the cutouts cut into the abdomen in the abdomen of the steel girder are formed at predetermined intervals, and the lower flange is not provided in the lower part of the cutout in the abdomen. The lower part of the uncut portion is particularly suitable for a composite girder bridge composed of a steel girder coupled with a connecting bottom plate made of a steel plate of a predetermined thickness integrally provided in a concrete panel, and in this case, the lower end of the abdominal finishing panel It is enlarged to fit the size of the connecting bottom plate is installed so as to surround the outside of the steel girder.

Hereinafter, look at the specific configuration of the present invention on the basis of the example shown in the accompanying drawings.

First of all, the example shown in the accompanying drawings relates to a honeycomb girder-type precast concrete panel composite girder having a continuity structure proposed by the present inventor in patent application No. 2003-2505, which is limited to the above example. no. In short, the finishing structure of the present invention is a composite precast concrete panel girder having a connecting bottom plate exposed structure as shown in Patent Application No. 2002-71616, or a composite structure of a general type I steel girder and a concrete panel, and a general girder It can be applied to bridges using various prestressed concrete composite girders, etc., having inter-connection structures.

FIG. 1A is a perspective view of a honeycomb girder type precast concrete panel composite girder 100 having a girder sequencing structure presented by the inventor in Japanese Patent Application No. 2003-2505, and FIG. 1B is along the AA line of FIG. 1A. A cut cross section is shown.

Prior to describing the finishing structure according to the present invention, the structure of the example shown in FIGS. 1A and 1B will be described first. In the example shown in FIGS. 1A and 1B, the honeycomb girder-like steel girder 100 has a honeycomb shape in which a cutout cut into the abdomen in the abdomen is formed at predetermined intervals. The lower flange is not provided at the lower portion of the abdomen 101 of the steel girder 100, and the lower portion of the non-cut portion of the abdomen 101 of the steel girder 100 is directly illustrated in FIGS. 1A and 1B. Coupling with the connection bottom plate 120 made of a steel plate of a predetermined thickness as shown in. That is, the lower portion of the abdomen 101 of the steel girder is inserted into the vertical abdominal fastening plate 121 of the connection bottom plate 120 and fastened by fastening means such as bolts, thereby connecting the connection bottom plate 120 and the steel girder integrally. do. The connection bottom plate 120 is integrally provided with the concrete panel 102.

As mentioned above, the finishing structure according to the present invention is not limited to the bridge using the honeycomb girder-type steel girder as described above, and furthermore, the steel girder and the concrete panel is not limited to having any particular coupling structure.

In the example shown in Figures 1a and 1b, in the continuous portion where the steel girders 100 on both sides are connected to each other, an upper flange connecting member 20 for connecting the upper flanges of each steel girder 100 is installed, the tension member 113 is placed over both steel girders 100 in a tense state. In order to fix the tension member 113, a plurality of connection bottom plates 120 of the continuous part are provided with fixing members 111 thereon. The tension member 113, which is tensioned over both steel girders 100, is fixed at the end thereof to the fixing member 111. The connection bottom plate 120 having the fixing unit 111 is larger in width than the connection bottom plate 120 without the fixing unit 111.

Conventionally, concrete is coated on the abdomen 101 of the steel girder 100 as described above, in the present invention, the abdominal finishing panel 10, which will be described below, is installed at an outside of the abdomen 101 at a predetermined interval.

2a to 2c is a view for explaining the finish structure of the present invention is shown, Figure 2a is a steel girder 100 shown in Figure 1a in the state in which the finish structure according to the present invention is installed on the right steel girder 100 ) Is a plan view taken along the line BB of FIG. 1A. 2B and 2C are cross-sectional views taken along the line CC and the line DD in FIG. 2A, respectively. FIG. 2B is a connection bottom plate 120 in which the tension fixing unit 111 is not installed for reinforcing the connection portion of the steel girder 100. FIG. 2C is a cross-sectional view of a section in which the fixing base 111 is installed and the width of the connection bottom plate 120 is expanded.

As shown in Figure 2a to 2c, in the finishing structure of the present invention, the vertical abdominal finishing panel 10 is provided at a predetermined interval from the abdomen 101 outside the abdomen 101 of the steel girder 100 Wrap the outside of the abdomen (101). The lower end of the abdominal finishing panel 10 is fixed to the connection bottom plate 120 or concrete panel 102.

The lower end of the abdominal finishing panel 10 may be fixed to the connection bottom plate 120 or concrete panel 102 through various structures. 3A and 3B are views showing an example of a structure in which the lower end of the abdominal finishing panel 10 is fixed to the connection bottom plate 120, and each of the detailed view of circle E of FIG. 2B.

Looking at the structure for fixing the lower end of the abdominal finishing panel 10 in detail, as shown in Figure 3a, the insertion member to have a gap corresponding to the thickness of the abdominal finishing panel 10 on the upper surface of the connection bottom plate 120 The installation 130 is welded and the lower end of the abdominal finishing panel 10 may be inserted into the insertion member 130 to be fixed to the connection bottom plate 120. As another structure, as shown in FIG. 3B, an insertion groove 122 having an interval corresponding to the thickness of the abdominal finishing panel 10 is formed on the upper surface of the connecting bottom plate 120, and the abdominal finishing panel 10 is formed. The lower end of the insertion groove 122 may be inserted into and fixed to the connection bottom plate 120. After inserting and fixing the lower end of the abdominal finishing panel 10 to the insertion member 130 or the insertion groove 122, it is preferable to completely seal the inserted portion using a sealing material.

On the other hand, the insertion member 130 and the insertion groove 122 is not necessarily formed on the upper surface of the connection bottom plate 120, it may be formed in the concrete panel 102. That is, in the case of the girder in which the lower flange of the steel girder 100 is embedded with the concrete panel 102 without the connecting bottom plate 120, the girder is formed on the upper surface of the concrete panel 102 at the time of manufacturing the concrete panel 102. It is also possible to fix the vertical insertion member 130 with a spacing or to form an insertion groove 122.

Meanwhile, as illustrated in FIG. 2B, the upper end of the abdominal finishing panel 10 surrounds the upper flange 103 of the steel girder 100, and the bottom plate 104 of the bridge synthesized with the upper flange 103. It reaches the lower surface such as the haunting part of). The upper end portion of the abdominal finishing panel 10 in contact with the bottom surface of the bottom plate 104 is sealed with a sealing material.

In addition, the abdomen 101 of the steel girder 100 is provided with an assembly pin 12 for supporting the panel so as to maintain the abdominal finishing panel 10 vertically and maintain a gap from the abdomen 101. As shown in the figure, the panel support assembly pin 12 is attached to the steel girders 100, the abdomen 101 and the other end is detachable to the inner surface of the abdominal finishing panel 10 in a state located in the horizontal direction. By assembling to support the abdominal finishing panel 10, the abdominal finishing panel 10 is prevented from moving away from the abdomen 101.

Looking specifically at the coupling structure of the assembly pin 12, as shown in Figure 4, one end of the assembly pin 12 is bonded to the abdomen 101 of the steel girder 100 by welding or pressure welding or the like method The other end has a rounded spherical shape and is detachably coupled to the coupler 13 installed on the inner surface of the abdominal finishing panel 10. That is, the coupling hole 13 is formed with a groove having a shape matching the shape of the other end of the assembly pin 12, the other end of the assembly pin 12 is inserted into this groove is coupled. Meanwhile, a rubber packing 14 is installed in the groove of the coupler 13 to prevent damage to the assembly pin 12 that may occur when the assembly pin 12 is attached or detached, and the other of the assembly pin 12 is prevented. It allows for a close tight coupling between the stage and the coupler 13 and thus the absorption of noise.

As such, forming the assembling pin 12 and the abdominal finishing panel 10 in a detachable coupling structure can easily assemble or disassemble the abdomen 101 and the abdominal finishing panel 10 of the steel girder 100. It is to be.

On the other hand, in the case shown in Figure 2c is provided with a fixing unit 111, the lower portion of the abdominal finishing panel 10 is expanded compared to the case shown in Figure 2a so as to surround the expanded bottom plate 120.

In the finishing structure of the present invention as described above, such as when the tension member 113 needs to be re-tensioned to expose the fixing unit 111 of the connection bottom plate 120, the abdomen 101 of the steel girder 100. ), If it is necessary to expose the upper and lower portions of the abdominal finishing panel 10, and then remove the lower end of the abdominal finishing panel 10 from the insertion member 130 or the insertion groove 122 to the abdomen The finishing panel 10 can be easily removed. After the predetermined work is completed, by inserting the lower end of the abdominal finishing panel 10 into the insertion member 130 or the insertion groove 122 as a reverse process by applying a sealing material to the top and bottom of the abdominal finishing panel 10, respectively. It can be easily reassembled and installed.

The abdominal finishing panel 10 may be used as an autoclaved light weight concrete panel (Autoclaved Lightweight Concrete Panel), fiber reinforced plastic (FRP), conventional plastic, galvanized sheet steel, in addition to the panel of various materials can be used.

As described above, in the finishing structure according to the present invention, instead of covering the abdomen 101 of the steel girder 100 as site-pouring concrete, the abdomen 101 using the abdominal finishing panel 10 made of a lightweight material ), Avoiding the increase in dead weight due to the cladding, and eliminating the need for assembly and disassembly of formwork and the assembly and dismantling of the copper ball. Thus, the total air and cost can be reduced.

In particular, it is possible to prevent the occurrence of defects and consequent cracks due to unfilling of concrete caused by placing concrete in the girder abdomen in a narrow area, which has been pointed out as a problem of the prior art.

In addition, since the abdominal finishing panel 10 can be disassembled and assembled in a simple manner, the abdominal finishing panel 10 is dismantled and reassembled even when retension of the steel wire arranged for continuity of the girder is required at the abdomen of the steel girder. It is possible to reassemble and revert to tension.

Claims (2)

In the bridge using the steel composite girders in which the steel girder 100 and the concrete panel 102 are integrally synthesized, The abdominal finishing panel 10 perpendicular to the outside of the abdomen 101 of the steel girder 100 is installed to be decomposable at a predetermined interval from the abdomen 101 to surround the outside of the abdomen 101 surface of the steel girder 100. Abdominal surface finishing structure of the composite girder bridge, characterized in that for finishing. The method of claim 1, The steel girder 100 is a honeycomb girder having a honeycomb shape formed at predetermined intervals with a cutout portion cut into the abdomen in the abdomen, The lower flange is not provided at the lower portion of the cut portion of the abdomen 101 of the steel girder 100, and the lower portion of the portion not cut at the abdomen 101 of the steel girder 100 is attached to the concrete panel 102. Is coupled to the connection bottom plate 120 made of a steel plate of a predetermined thickness provided integrally, The lower end of the abdominal finishing panel 10 is enlarged to match the size of the connecting bottom plate 120, the abdominal surface finishing structure of the composite girder bridge, characterized in that it is installed to surround the outside of the steel girder (100).