KR100622059B1 - Structure of corrugated steel plate and method for constructing the same - Google Patents

Abstract

The present invention discloses a corrugated steel sheet structure and its construction method which can shorten the construction period, are easy to construct, have good bearing capacity and construction quality, and have a beautiful appearance. Corrugated steel sheet structure according to a preferred embodiment of the present invention is fixed to the base structure, which is placed at an arbitrary interval on the ground, both ends are fixed to the base structure, the corrugated steel sheet made by connecting the steel plate having a corrugated cross section in an arc In order to reduce the bending moment of the corrugated steel sheet, a plurality of reinforcing materials, which are inserted in a layered structure between the filling materials, to increase the holding force of the filling material and the filling material arranged to support the outer wall of the corrugated steel sheet, the filling material to improve the aesthetics of the filling material It includes a finish that is installed on the front and back of the. By such a configuration, the corrugated steel sheet structure according to the preferred embodiment of the present invention can be easily constructed, and the bending moment of the corrugated steel sheet can be reduced to reduce the risk of collapse of the filling material.

Corrugated Steel Structure, Corrugated Steel Sheet, Reinforcement, Geogrid, Band Steel, Filled Soil, Block Finish, Panel Finish

Description

Corrugated steel plate and method for constructing the same}

1 is a schematic perspective view of a corrugated steel sheet structure according to the prior art;

2 is a schematic perspective view of a corrugated steel sheet structure according to a preferred embodiment of the present invention;

3 is a schematic perspective view of a modified corrugated steel sheet structure according to a preferred embodiment of the present invention;

Figure 4 is a schematic diagram of the bridge is installed corrugated steel sheet structure according to a preferred embodiment of the present invention;

5 is a schematic view showing a finish of a corrugated steel sheet structure according to a preferred embodiment of the present invention;

Figure 6 is a schematic diagram showing a coupling configuration of the corrugated steel sheet structure according to Figure 3; And

7 is a flow chart showing a construction method of a corrugated steel sheet structure according to a preferred embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

100, 200: corrugated steel sheet structure 110, 210: foundation structure

120,220: corrugated steel sheet 130, 230: filler

240: reinforcing material 250: finishing material

The present invention relates to a corrugated steel sheet structure used in the construction of tunnels or bridges and a construction method thereof, and more particularly, to a corrugated steel sheet structure and a method for constructing the corrugated steel sheet to reinforce the filling material to reduce the bending moment of the corrugated steel sheet .

In general, when constructing a tunnel or a bridge, corrugated steel is mainly used for supporting the tunnel or the bridge. Such corrugated steel sheet is easy to install, high in strength, and economical, so its demand is increasing. Such corrugated steel sheet structure is shown in FIG.

Referring to FIG. 1, in order to install the corrugated steel sheet structure 100 according to the related art, first, the foundation structure 110 is installed at predetermined intervals, and then, the corrugated steel sheet ( Fix both ends of 120).

At this time, in order to arrange the filler 130 on the outer wall of the corrugated steel sheet 120, as shown in Figure 1, the surface wall formwork 131 is provided on the front portion of the corrugated steel sheet 120. Thereafter, concrete is placed on the rear surface of the face wall formwork 131 to erect the concrete wall 132. When the concrete wall 132 is dried, the backfill soil 133 is laid on the rear surface of the concrete wall 132. Thereafter, the surface wall formwork 131 is removed to complete the corrugated steel sheet structure 100.

However, the corrugated steel sheet structure 100 of the prior art as described above, after the concrete wall 132 is erected by the face wall formwork 131, waits for the concrete wall 132 to dry and then backfills the soil 133. There is a disadvantage in that the construction period is long because it is laid.

In addition, in order to install the structure of the corrugated steel sheet 100 of the prior art, the backfilling soil 133 may satisfy a predetermined degree of compaction so that the filler 130 may exhibit its original function. There are SB-1, SB-2, and the like of the backfill soil 133 having a compaction degree suitable for this purpose, and such a fill soil has been mainly used when installing the corrugated steel sheet structure 100 of the prior art. However, these filling soils are very expensive, which increases the cost of construction.

The present invention has been made to improve the problems of the corrugated steel sheet structure according to the prior art as described above, the object of the present invention, there is no need to install a concrete wall for backfilling, the construction period is shortened, easy construction To provide a corrugated steel sheet structure and its construction method.

Another object of the present invention is to provide a corrugated steel sheet structure and its construction method by improving the bearing capacity and construction quality by laying and reinforcing the multi-stage reinforcement to the corrugated steel sheet structure.

Corrugated steel sheet structure according to a preferred embodiment of the present invention in order to achieve the above object, the foundation structure is placed on the ground at any interval; Both ends are fixed to the foundation structure, the corrugated steel sheet made by connecting the steel plate having a corrugated cross section in an arcuate shape; Filler disposed to support the outer wall of the corrugated steel sheet in order to reduce the bending moment of the corrugated steel sheet fixed to the base structure; A plurality of reinforcing members are installed in a layered structure between the filler material in order to increase the bearing capacity of the filler material and to reduce the bending moment of the structure; And a finishing material installed on the front and rear surfaces of the filling material to improve the aesthetics of the filling material.

The reinforcement is inserted to be tensioned in the direction in which the bending moment of the corrugated steel sheet acts.

The reinforcement is preferably a steel strip or geogrid.

In addition, the corrugated steel sheet construction method according to a preferred embodiment of the present invention, the step of selecting the ground stop work; Installing a foundation structure on the ground smoothed by the stopping operation at an arbitrary interval; Fixing both ends of the corrugated steel sheet to the foundation structure; Disposing a filler to support the outer wall of the corrugated steel sheet to reduce the bending moment of the corrugated steel sheet fixed to the foundation structure; Inserting a plurality of reinforcing members to form a layered structure between the filling materials to increase the supporting force of the filling materials; And placing a face wall on the front and rear surfaces of the filling material into which the reinforcing material is inserted.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in more detail. Identical elements refer to like reference numerals.

2 to 5, the corrugated steel sheet structure 200 according to an embodiment of the present invention, the base structure 210 is placed on the ground at any interval; Both ends are fixed to the foundation structure 210, corrugated steel sheet 220 is made by connecting the steel plate having a corrugated cross-section in an arcuate shape; A backfill material 230 disposed to support an outer wall of the corrugated steel sheet 220 in order to reduce the bending moment of the corrugated steel sheet 220 fixed to the foundation structure 210; A plurality of stiffeners 240, which are installed in a layered structure between the fillers 230 for increasing the supporting force of the fillers 230 and reducing the bending moment of the structure; And finish material 250 is installed on the front and rear surfaces of the filling material 230 to improve the aesthetics of the filling material 230.

The foundation structure 210 is made by placing the foundation concrete on the ground at intervals corresponding to the desired width of the tunnel or bridge to be constructed.

The corrugated steel plate 220 is made of a plurality of steel plates 221 having a corrugated cross section in an arcuate structure through bolted connections. Since the corrugated steel plate 220 is assembled through a bolt connection without welding, the construction period can be shortened, and the construction is easy because only the corrugated steel plate 220 is installed on the site.

In addition, since the corrugated steel sheet 220 is arched, the external load can be uniformly supported. Therefore, the corrugated steel sheet 220 has high strength and can flexibly cope with uneven settlement compared with the concrete underground structure due to the properties of the steel sheet.

Both ends of the corrugated steel plate 220 is fixed to the base structure 210 to maintain the arcuate shape.

Filler 230 is disposed on the outer wall of the corrugated steel plate 220 fixed to the base structure 210 to maximize the ductility effect of the corrugated steel plate 220 structure. The corrugated steel plate 220 fixed in an arc shape has a high strength because the external load is uniformly distributed on all sides of the steel sheet due to the arch structure, but in order to maintain the corrugated steel plate 220 made of a plurality of plate materials 221 in an arc shape, The plate 221 must reduce the bending moment to return to its original shape. Therefore, the filler 230 is disposed on the outer wall of the corrugated steel sheet 220 to support the corrugated steel sheet 220.

Since the filling material according to the prior art supports the corrugated steel plate only by the backfilling soil itself, there was a limitation in the quality and construction method of the backfilling soil because the supporting force of the backfilling soil itself was required, but the filling material according to the preferred embodiment of the present invention ( 230 may use the filling soil 231 which is limited only to the maximum particle size because the reinforcing material (to be described below) is installed in multiple stages between the filling material 230.

The reinforcement 240 is installed in a layered structure between the filling soil 231 to increase the supporting force of the filling soil 231 made of natural soil, etc., the number can be adjusted according to the desired strength. The reinforcing member 240 may use various kinds of steel, elastic materials, or textile materials, which may be tensioned when subjected to external force.

The reinforcement 240 is inserted parallel to the ground in the direction in which the bending moment of the corrugated steel plate 220 acts.

The corrugated steel plate 220 that is deformed in an arc shape is designed in consideration of the axial force only, but the risk of collapse may occur due to the bending moment that was not reflected in the design depending on the backfill construction quality. Therefore, in order to reduce the bending moment, the reinforcing material 240 is disposed on the outer wall of the corrugated steel plate 220, and even when the bending moment is applied, the reinforcing material 240 is tensioned in the axial direction in which the bending moment is applied to the underground steel sheet 220. Since the deformation of the filling soil 231 is less and thus the risk of collapse of the filling soil 231 is to be prevented.

The stiffener 240 is typically preferably a steel strip 241 or geogrid 242. 2 shows the corrugated steel sheet structure 200 into which the strip steel 241 reinforcing material is inserted, and FIG. 3 shows the corrugated steel sheet structure 200 into which the geogrid 242 reinforcing material is inserted.

Finishing material 250 is to be placed on the front and rear of the filling material 230 at the same time as the filling material 230 to improve the aesthetics of the filling material 230 may be used a block finishing material or a panel finishing material.

4 schematically shows a bridge made of the corrugated steel sheet structure 200 in which the corrugated steel plate 220 is fixed to the foundation structure 210 and then the filling material 230 is poured thereon. When pouring the filling material 230 of the corrugated steel sheet structure 200, since the reinforcing material is inserted into the filling material 230 to support the corrugated steel sheet structure 200, the corrugated steel sheet structure 200 even if a separate face wall is not installed Although it can support, as shown in order to improve the aesthetics of the corrugated steel sheet structure 200 may be installed a finishing material 250 on the front and rear (not shown) of the filling material 230.

5 shows a block finishing material 250, which is a kind of finishing material installed on the front and rear surfaces of the filling material.

Block finishing material 250 may be disposed so that the front surface 251 of the block finishing material 250 in front and rear of the filling material (not shown) to improve the appearance of the corrugated steel sheet structure 200.

With reference to FIG. 6, the coupling structure of the filler 230 and the corrugated steel plate 220 into which the reinforcement 240 is inserted will be described.

Referring to FIG. 6, the filling material 230 in which the reinforcing material 240 is installed in multiple stages is disposed on the outer wall of the corrugated steel sheet 220. At this time, the corrugated steel plate 220 and the filling material 230 is coupled, as shown by a bolt 260, preferably a stud 260, which is the corrugated steel plate 220 and the filling material 230 to interview each other The ends of the studs 260 are easily coupled to improve the holding force and the coupling force between the filler 230 and the corrugated steel sheet 220. The stud 260 may be fastened to the corrugated steel plate 220 and the reinforcement 240, or may be fixed between the grids of the geogrid 242 when the reinforcement 240 is a geogrid 242 as shown in FIG. 6.

Hereinafter, a construction method of a corrugated steel sheet structure according to a preferred embodiment of the present invention as described above with reference to FIG. 7 will be described.

First, the stop work to select the ground in order to construct a tunnel or bridge at a desired place and location (S1).

Then, the foundation structure is installed on the ground flattened by the stop operation at any interval (S2). After setting the installation spacing of the foundation structure to the desired width of the tunnel or bridge, it is preferable to install the foundation structure by placing the foundation concrete on the ground long.

Fixing both ends of the corrugated steel sheet to the foundation structure thus installed (S3). Corrugated steel plate is made to have an arch shape by connecting a plurality of corrugated steel plate with a bolt, etc., both ends are fixed to the foundation structure to maintain the arch shape.

Next, in order to reduce the bending moment of the corrugated steel sheet, a filler is disposed on the outer wall of the corrugated steel sheet to support the corrugated steel sheet (S4). Filler can be used natural soil as useful soil generated in the field.

When the filler is disposed on the outer wall of the corrugated steel sheet, in order to increase the bearing capacity of the filler, a plurality of reinforcing members are inserted to form a layered structure between the fillers (S5).

In more detail, first the filling soil is laid on the floor, then the reinforcement is placed on it and the filling soil is put on it again. Then squeeze the filling soil tightly. This process is repeated according to the specification of the corrugated steel sheet and the strength of the filling soil required.

The reinforcement is usually preferably a steel strip or geogrid, and is inserted parallel to the ground in the direction in which the bending moment of the corrugated steel sheet acts.

Corrugated steel sheet deformed arcuately is designed considering only the axial force. However, depending on the backfill construction quality, the collapse moment may occur due to the bending moment that was not reflected in the design. Therefore, in order to reduce the bending moment, the reinforcement is disposed on the outer wall of the corrugated steel sheet, and even though the bending moment is applied, the reinforcement is stretched in the axial direction where the bending moment acts to support the corrugated steel sheet so that there is little deformation in the filling soil. The risk of collapse of the filling soil will also be prevented.

Finally, the face wall is poured on the front and rear surfaces of the filling material into which the reinforcing material is inserted (S6).

When the wall is filled with filling soil and reinforcement, the front and rear surfaces of the structure may be finished with natural stone, block finish, and panel finish to enhance the appearance of the corrugated steel sheet structure.

As described above, the corrugated steel sheet structure according to the preferred embodiment of the present invention does not need to install concrete face wall formwork, so the construction period is shortened, and the corrugated steel sheet and the tension member, which are already made in the whole process for the tunnel or bridge construction, are applied. Since it is possible to construct, the construction is convenient and the effect is good.

Corrugated steel sheet structure according to a preferred embodiment of the present invention, because the reinforcement between the filling soil is multi-step after repeating the compacting process, the bearing capacity can be strengthened to reduce the bending moment of the corrugated steel to reduce the risk of collapse of the filling soil Has the effect.

While the invention has been shown and described with respect to particular embodiments, those skilled in the art will understand that changes and modifications can be made without departing from the spirit of the invention.

Claims (5)

A foundation structure which is poured on the ground at any interval; Both ends are fixed to the foundation structure, the corrugated steel sheet made by connecting the steel plate having a corrugated cross section in an arcuate shape; Filler disposed to support the outer wall of the corrugated steel sheet to reduce the bending moment of the corrugated steel sheet fixed to the base structure; A plurality of reinforcing members, which are inserted in a layered structure between the filling materials, in order to increase the supporting force of the filling materials; And Corrugated steel structure in which the reinforcement is poured, characterized in that it comprises a finishing material installed on the front and rear surfaces of the filling material to improve the aesthetics of the filling material. The corrugated steel sheet structure of claim 1, wherein the reinforcing member is inserted in parallel with the ground in a direction in which a bending moment of the corrugated steel sheet acts. The corrugated steel sheet structure of claim 1, wherein the reinforcing material is a steel strip. The corrugated steel sheet structure of claim 1, wherein the reinforcing material is a geogrid. Stopping the ground level; Installing a foundation structure on the ground smoothed by the stopping operation at an arbitrary interval; Fixing both ends of the corrugated steel sheet to the foundation structure; Disposing a filler to support the outer wall of the corrugated steel sheet to reduce the bending moment of the corrugated steel sheet fixed to the foundation structure; Inserting a plurality of reinforcing members to form a layered structure between the filling materials to increase the supporting force of the filling materials; And Corrugated steel plate construction method comprising the step of placing a face wall on the front and rear surfaces of the filler and the reinforcement is inserted.

Images