KR100704395B1 - Connecting structure in corrugated steel plate for box-typed bridge - Google Patents

Abstract

In a structure in which corrugated steel sheets having a corrugated shape having a constant cross-sectional shape in one direction by repeating valleys and hills in one direction are connected to each other in one direction, a pair of subs are joined at the front and rear sides of the valley to cover the valleys of the corrugated steel sheet. Disclosed is a connection structure of a corrugated steel sheet including a reinforcement plate and a main reinforcement plate each having side ends coupled to both hills about a valley.

Web, shear, shear, gusset, box

Description

Connecting structure in corrugated steel plate for box-typed bridge}

1 is a perspective view of a box-shaped bridge to which a conventional corrugated steel sheet is applied.

2 is a perspective view showing a connection structure of a conventional corrugated steel sheet.

3 is a perspective view showing a corrugated steel sheet according to an embodiment of the present invention.

4 is a partially enlarged perspective view of FIG. 3.

5 is a perspective view showing a corrugated steel sheet according to another embodiment of the present invention.

The present invention relates to a connection structure of a corrugated steel sheet for box-shaped bridges, and more particularly to a connection structure of a corrugated steel sheet for box-shaped bridges that can sufficiently counter the shear force applied to the connecting portion when connecting adjacent corrugated steel sheets.

In general, corrugated steel sheet is a structure used to increase the rigidity of the steel sheet by forming a cross section having a waveform by forming a steel plate of a constant thickness.

The corrugated steel sheet is a method of reinforcing a thin plate without welding as 10 to 30 times of a general steel sheet having the same thickness as the cross-sectional coefficient for the center of the corrugation by thickness. Since the corrugated steel sheet can be completed by simple bolt connection in the field, it is a structure that has great effect of shortening the air and reducing construction cost.

1 is a perspective view of a box-shaped bridge to which a conventional corrugated steel sheet is applied, and FIG. 2 is a perspective view showing a connection structure of a conventional corrugated steel sheet.

As shown, the corrugated steel sheet 100 is a cross-section viewed from above by the valley 120 and the hill 110 is formed in a continuous wave shape. In this example, the cross section of the waveform is trapezoidal, but the sine wave may be a cross section of the waveform.

In the box-shaped bridge, the corrugated steel plate 100 forms a side plate, and the upper slab concrete 200 is poured into the upper part, and the lower slab concrete 300 is poured into the lower part. Since the box-shaped bridge is a well-known configuration, detailed description thereof will be omitted.

Since the corrugated steel sheet 100 has a certain length, it is necessary to connect the corrugated steel sheet in order to apply it in the field.

Referring to FIG. 2, a plurality of through holes 122 are formed in the height direction at end portions of the corrugated steel plate 100 that are adjacent to each other in the valley 120. Here, the valley 120 is a portion defined when the reference when viewed from the inside of the corrugated steel sheet 100.

Next, a pair of reinforcement plates 150 covering the opposite end portions of the corrugated steel sheet 100 are prepared, and the through holes are formed in the reinforcing plate 150 in correspondence with the through holes 122 formed in the corrugated steel sheet 100. Form the field 152.

In this state, the opposite ends of the corrugated steel sheet 100 are brought into contact with each other, and then a pair of reinforcing plates 150 cover the end portions of the corrugated steel sheet 100 that face each other from the front and rear surfaces thereof, and the through holes. The 122 and the through holes 152 communicate with each other to tightly couple the pair of reinforcing plates 150 using the bolt 155 and the nut 154.

However, in the above-described coupling structure, the width of the valleys or hills is inevitably limited because of the structural characteristics of the corrugated steel sheet, so that the width of the reinforcing plate to be applied is also limited.

When the width of the reinforcing plate is limited in this way, it is not sufficient to counter the shear force applied to the connection portion of the corrugated steel sheet from the top because it does not have sufficient shear stress.

Accordingly, it is an object of the present invention to provide a connection structure of corrugated steel sheet that can sufficiently counter the shear force applied from the top to the connection portion of the corrugated steel sheet with a simple structure.

Other objects, features and advantages of the invention will be apparent from the examples set forth below.

According to the first aspect of the present invention, in the structure in which the corrugated steel sheets having a corrugated shape having a constant cross section by repeating the valleys and the hills in one direction, are connected to each other in the one direction,

A pair of sub reinforcement plates coupled at the front and rear of the valley to cover the valley of the corrugated steel plate;

Disclosed is a connection structure of a corrugated steel plate for a box-shaped bridge including a main reinforcing plate having side ends coupled to both hills with respect to the valley.

Preferably, the valley and the pair of sub reinforcement plates are integrally coupled by bolts and nuts, and the main reinforcement plates may be coupled to the hills by bolts and nuts.

Preferably, the mortar may be filled in the space formed by the bone and the main reinforcing plate.

Preferably, a plurality of studs may protrude from the surface of the main steel plate facing the space.

According to the second aspect of the present invention, in the structure in which the corrugated steel sheets having a corrugated shape having a constant cross-sectional shape by repeating valleys and hills in one direction, are connected to each other in the one direction,

A main reinforcement plate having side ends coupled to both hills with respect to the valley of the connection part of the corrugated steel sheet, respectively,

The main reinforcing plate is disclosed a connection structure of the corrugated steel plate for the box-shaped bridge having the same cross-sectional profile as the cross-sectional profile of the corrugated steel sheet.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

3 is an exploded perspective view showing the connection structure of the corrugated steel sheet for the box-shaped bridge according to an embodiment of the present invention, Figure 4 is a partially enlarged perspective view of FIG.

First, as in the conventional connection structure, a plurality of through-holes 122 are formed in the height direction at the end portions of the corrugated steel plate 100 that are opposite to each other in the valley 120 of the adjacent corrugated steel sheet 100, and the corrugated steel sheet 100 is opposed to each other. Prepare a pair of sub reinforcement plate 150 to cover the end portion, and through holes 152 in the sub reinforcement plate 150 corresponding to the through holes 122 formed in the corrugated steel sheet 100 do.

In this state, after the opposite ends of the corrugated steel sheet 100 are brought into contact with each other, the pair of sub reinforcement plates 150 cover the end portions of the corrugated steel sheet 100 that face each other from the front and rear surfaces thereof, and the through-holes. The field 122 and the through holes 152 communicate with each other to tightly couple the pair of sub reinforcement plates 150 using the bolt 155 and the nut 154.

Subsequently, through holes 112 are formed in the hills 110 located at both sides of the valley 120 formed by the opposite ends of the adjacent corrugated steel sheets 120.

According to the present invention, the main reinforcing plate 160 having a width as much as between the hills 110 are prepared, and the through holes 162 are formed at positions corresponding to the through holes 112.

The through-holes 162 and the through-holes 112 communicate with the main reinforcement plate 160 formed as described above in contact with both hills 110 of the corrugated steel plate 100, and then the bolts 165 and Coupling using a nut (164).

According to the present invention, by overlapping and applying the main reinforcement plate 160 having a wider width in addition to the sub-reinforcement plate 150, it is possible to sufficiently counter the larger shear force.

As the sub reinforcement plate 150 or the main reinforcement plate 160, a conventional iron plate may be used, but the thickness and the material may be appropriately selected according to the site conditions.

If necessary, the mortar may be filled in the space formed by the valleys 120 of the main reinforcement plate 160 and the corrugated steel sheet 100 to further reinforce the mortar. In this case, a stud or the like may be formed on the side of the main reinforcing plate 160 facing the space, thereby further strengthening the bonding with the mortar.

In the above-described embodiment, the main reinforcing plate is provided inside the corrugated steel sheet as an example, but if necessary, the main reinforcing plate may be provided outside the corrugated steel sheet.

In addition, although the sub-reinforcement plate and the main reinforcement plate has been exemplified by the use of bolts and nuts, alternatively, welding may be performed using welding.

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Although the above has been described with reference to the preferred embodiment of the present invention, various changes and modifications can be made without departing from the scope of the present invention without departing from the scope of the present invention, and such changes and modifications will naturally be within the scope of the present invention. .

As described above, according to the present invention, there is an advantage that the shear force applied to the connection portion of the corrugated steel sheet from the top can be sufficiently countered.

Claims (5)

In the structure in which the corrugated steel sheets having a corrugated shape having a constant cross-sectional shape by repeating valleys and hills in one direction are connected to each other in the one direction, A pair of sub reinforcement plates coupled at the front and rear of the valley to cover the valley of the corrugated steel plate; Connection structure of the corrugated steel plate for the box-shaped bridge, characterized in that it comprises a main reinforcing plate, each side end coupled to both hills around the valley. The method of claim 1, The valley and the pair of sub reinforcement plate is integrally coupled by a bolt and nut, the main reinforcement plate is connected to the hill by a bolt and nut, the connection structure of the corrugated steel plate for the bridge. The method according to claim 1 or 2, Connection structure of the corrugated steel plate for the box-shaped bridge, characterized in that the mortar is filled in the space formed by the bone and the main reinforcement plate. 4. The connecting structure according to claim 3, wherein a plurality of studs protrude from a surface of the main reinforcing plate facing the space. delete

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