KR100682790B1 - Girder of steel box girder type bridge - Google Patents

Abstract

The present invention is a steel box girder having a flange that is welded to both sides of the bottom plate, the flange is attached to the upper end of the side plate, by welding the bracket integrally to the flange, and hypothesis of the plate between the bracket It can be integrally joined by a fixing screw and a nut, and the plate can be permanently used as a formwork of the bottom plate, and can be connected between both side plates without a weld, thereby preventing fatigue cracks due to the presence of the weld. It is.

Steel box girder, plate of girder, non-contact plate girder

Description

Girder of steel box girder type bridge

1 is a perspective view showing a configuration of a conventional steel box girder;

2 is a perspective view showing the structure of a steel box girder according to the present invention;

3 is a cross-sectional view showing a detailed structure of the main part A of FIG.

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

2: bottom plate 4: side plate

6: middle diaphragm 8: flange

10 plate 12 bracket

14: fixing screw 16: nut

The present invention relates to girders of steel box-type bridges, and more particularly, to steel box-type bridges in the form of open section boxes having a structure that is not easily deformed in the constant moment.

Typically, the bridge is completed by placing a girder precast between the pier and both ends, placing the reinforced concrete to the upper side of the girder to form a bridge top plate, and then laying a packaging material such as ascone on the top plate. .

Since the bridge is a simple beam structure that simply spans the girder between the bridges or both ends of the bridge, a constant moment occurs as a result of the dead and live loads acting in the center of the beams, Problems such as cracking or separation of the joint have been shown.

Unlike the above, a steel box-type girder which uses a steel material and manufactures in a box form without using the precast caster is also used for the bridge.

Steel box-type bridge girders are constructed by combining steel sheets into boxes by means of welding or the like. The steel box-type bridge girders are implemented in an open cross-sectional box shape with an open side and a closed cross-sectional box shape with a closed shape.

In general, the open side box type has the advantage of maximizing the efficiency of the upper flange integrated with the floor top plate and reducing the amount of work and the number of members in the closed space. As an alternative, it is being installed more frequently outside the country.

However, the open cross-section box type is provided with a section steel bracing inside to maintain the cross-sectional shape without deformation such as bending and twisting.

Fig. 1 is a perspective view showing a conventional example of a generally open cross-sectional box type, in which side plates 4 are obliquely arranged and welded to both side ends of the bottom plate 2, and a predetermined portion is formed between both side plates 4; Each diaphragm 6 is provided to prevent deformation, and a flange 8 for supporting the bottom top plate is attached to the upper ends of both side plates 4, and horizontal bracing 10 is provided between the flanges 8. ) Is a radial structure arranged for each element.

In the above-described open-ended box-type configuration, the horizontal bracing 10 is installed from the shape steel, but this becomes a member that loses its practical utility value after the bottom top is installed on the girders, which is a significant wasteful factor. Is holding.

In other words, the horizontal bracing is cumbersomely installed, but after completion of the bridge, the effect of maintaining the cross-sectional shape of the girder by this is lost, but rather the member that increases only the weight of the bridge. Since the cross-sectional shape of the girder cannot be maintained until completion, it must be installed, but after laying the bottom top plate, since it is concealed inwards, it cannot be removed and thus acts as a bridge weight.

The above-described problem is greatly advantageous in terms of shortening the air, reducing construction cost, and working safety by laying a deck plate that can be used as a permanent formwork, omitting temporarily necessary upper horizontal bracing.

However, because the deck plate is welded to the upper flange of the side plate, a fatigue cross section is naturally created along the weld, which is vulnerable to the effects of dead and live loads acting repeatedly on the bridge, especially over time. Fatigue cracks are often developed in the parent section where the stresses are alternately stressed.

Therefore, an object of the present invention is to simplify the construction and reduce the total weight of the bridge by eliminating unnecessary materials in the construction of the girder of the steel box-type bridge, and the configuration does not cause fatigue problems of the deck form by welding In order to solve the above problems by providing a girder of the steel bridge.

In order to achieve the above object, the present invention is a steel box type girder having a flange that is welded to both sides of the bottom plate, the flange is attached to the upper end of the side plate, integrally the bracket on the inner side of the flange By welding, the plate is interposed between the brackets, and a joining connection is made so as to be integral with a fixing screw and a nut.

The bracket is formed in a cross-section "a", the horizontal surface is a structure in which a plurality of through holes through which the fixing screw can be installed, must be disposed continuously along the inner side of the flange.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, FIGS. 2 and 3. In the illustrated embodiment, the same parts as those shown in FIG. 1 are denoted by the same reference numerals and names.

The steel box girders according to the present invention are configured to include a plate 10 which is attached to both sides of the bottom plate 2 and is installed between upper flanges 8 of the side plates 4 forming the steel box.

The plate 10 has a double plate structure in which a plurality of reinforcing rods are attached to the upper surface, or a reinforcing plate having a plurality of beads formed on the upper surface thereof, so that the mechanical strength is reinforced.

In addition, although the plate 10 is shown in a form not installed in some sections in Figure 2, this is intended to show the internal structure at a glance, in practice, the coating is laid so as to continue on both flanges (8).

Between both flanges 8 the plate 10 is hypothetically installed.

In order to achieve such a structure, in the present invention, a bracket 12 is welded to the side of the flange 10, as shown in FIG.

The bracket 12 has a “a” shaped cross section, which is welded to the side of the flange 10, but is limited to the upper and lower ends so that the welds W1 and W2 are formed, and thus can withstand loads applied upwards. It is joined by a structure.

In addition, the bracket 12 has a through hole formed in a predetermined position on the horizontal plane, and the plate 10 is fixed to the bracket 12 by the fixing screw 14 and the nut 16.

Due to this configuration, a steel box is formed in which the plate 10 is stably and firmly supported on the upper flange 8 of both side plates 4 without depending on the welding.

As described above, the plate 10 which is non-contacted between both flanges 8 is utilized as a lower formwork of the bottom upper plate which is poured upward.

That is, when the installation of the girder is completed, when installing the formwork for the floor upper plate to the upper side of the girder, the lower formwork does not need to be arranged separately, and it can be installed with the plate 10 as formwork. It becomes a permanent formwork that is not removed.

As described above, the present invention is a steel box bridge girder which welds the side plates to both sides of the bottom plate and covers the upper side with the plate, and is integrally welded to the sidewalls of the flanges attached to the upper ends of the both side plates. Since both sides of the plate are supported to cover the upper surfaces of both side plates, the cross-sectional shape can be reinforced without conventional horizontal bracing, and since the plate is hypothetical without welding, tensile or alternating stresses are provided. It does not leave welds vulnerable to damage and does not cause fatigue cracking even after a long period of time.

And while the bracket is a structure that is joined to the flange by welding, the weld is formed to be limited to the upper side and the lower side in the side of the flange, this structure is a structure that withstands the parent moment applied to the plate, this part Fatigue cracks will not occur at.

Therefore, the present invention is provided with the advantages of shortening the air that can be expected in the steel box-type bridge girders, construction cost reduction and work safety, and the structure of eliminating cracks in the floor top plate, fatigue cracks, unlike the conventional welding connection method The problem does not occur and has the advantage of extending the service life of the bridge.

Claims (2)

In a steel box type bridge girder having flanges attached to both sides of the bottom plate and attached to an upper end of the side plate, the bracket is integrally welded to the flange and the plate is interposed between the brackets and the fixing screw Girder of steel box type bridge which is combined by integrally and by nut to form closed space. The girder of a steel box bridge according to claim 1, wherein the bracket is formed in a cross section “a” and a fixing screw is installed on a horizontal surface thereof to connect and fix the plate.

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