KR100875251B1 - Reinforcing apparatus for end part of underground-structure using corrugated multi plate and reinforcing method using the same - Google Patents

Abstract

An end stiffening member of a corrugated steel plate structure and an end stiffening method using the same are provided to make reinforcement possible with easy construction and to cut down on maintenance expenses with excellent reinforcement efficiency. An end stiffening member of a corrugated steel plate structure comprises a first stiffening member(20) arranged perpendicular to the axial direction of a corrugated steel plate structure(100) and composed of a strip plate having plural holes in the longitudinal direction, and plural second stiffening members(30) installed to the first stiffening member to be inclined and folded to make one end inserted to the hole of the first stiffening member.

Description

Reinforcing Apparatus for End part of Underground-Structure using Corrugated Multi Plate and Reinforcing Method using the same}

The present invention relates to an end reinforcement of the underground structure using a corrugated steel sheet and an end reinforcement method using the same, and more particularly, to a method of reinforcing the end by installing a reinforcing material on the backfill material of the corrugated steel sheet underground structure.

Corrugated steel plate underground structure refers to a structure that increases the stiffness of the steel plate through corrugation molding of thin structural steel rolls and reduces the load burden on the structure by simultaneously resisting the backfilling soil and the structure against external loads. The corrugated steel underground structure has a cross section of about 10 to 30 times larger than that of ordinary steel sheets of the same thickness through the application of corrugated cross sections, and increases the resistance to corrosion by improving the durability by hot-dip galvanizing. As it is constructed by connecting and backfilling, it is economical structure that can reduce air shortening and construction cost compared to the existing concrete structure.

Dynamically, corrugated sheet structures are quite thin, so the loads they can bear are very small compared to rigid structures with the same inner diameter. However, corrugated steel underground structures have a load capacity equivalent to or greater than that of rigid structures because they support the load by using deformation of the steel sheet due to vertical earth pressure as the flexible structure. The horizontal deformation of the steel plate by the vertical earth pressure causes the horizontal earth pressure by pressing the backfill soil of the steel plate sidewall, and the horizontal earth pressure serves to support the vertical earth pressure. For this reason, the corrugated steel underground structure can withstand a large external pressure with a thin plate because the bending moment has little effect but only axial force.

However, when the bell mouse is applied at the end, this part becomes a cantilever-like structure, which is likely to cause displacement due to transverse pressure. In addition, there is a problem in that the maintenance cost is additionally generated due to the crack of the face wall due to the rising of the steel sheet and the aesthetics are lowered when the back wall is restrained by the face wall.

As an end reinforcement method of the corrugated steel plate underground structure that is conventionally applied to the bell mouse or bound by the face wall, as shown in Figure 7, as a method of reinforcing the rigidity of the corrugated steel sheet structure itself, the shaft of the corrugated steel sheet structure 100 at the end The method of attaching the metal channel 110 layered in the direction has been applied. However, the end reinforcement method for reinforcing the rigidity of the corrugated steel sheet structure itself has a problem that the construction cost increases due to the reinforcement performance is insignificant and additional maintenance costs are generated accordingly.

The present invention has been made in view of the above-described problems of the prior art, and provides an end reinforcement and reinforcement method of a corrugated steel underground structure that can be reinforced by easy construction and can reduce maintenance costs with better reinforcement performance. There is a purpose.

According to a preferred embodiment of the present invention, a first reinforcing member composed of a band plate disposed at right angles to the axial direction of the corrugated steel sheet structure and having a plurality of holes formed in a longitudinal direction, and installed at an inclination with the first reinforcing member, one end of which is first reinforcing member An end reinforcement of a corrugated steel underground structure is provided, comprising a plurality of second reinforcements bent to be inserted into a hole of the.

At this time, the other end of the second reinforcing material may be bent or the end plate may be further coupled.

In addition, the first reinforcing material may be molded to have a wavy cross-sectional shape.

According to another suitable embodiment of the present invention, the foundation structures are installed at arbitrary intervals, and at least one end in the axial direction is fixed to the foundation structures 200 at both circumferential ends of the corrugated steel sheet structure 100 to which the bell mouse is applied. Assembling the corrugated steel sheet structure (step (a)), fixing the plurality of angles for fixing the stiffeners in the longitudinal direction to the bell mouse portion of the corrugated steel sheet structure (step (b)), and the axis of the corrugated steel sheet structure. Coupling the first reinforcement consisting of a band plate having a plurality of holes in the longitudinal direction so as to be disposed at right angles to the direction (step (c)), and bending one end to be inserted into the hole of the first reinforcement; Combining the plurality of second reinforcing members to be inclined with respect to the first reinforcing material (step (d)), and performing back filling so that the first and second reinforcing materials are embedded (step (e)), and (B) the end of the corrugated steel plate reinforcing method of the underground structure to step (e) step includes the step of repeatedly carried out until the bell mouth top end of the corrugated steel plate structure is provided.

At this time, the other end of the second reinforcing material may be bent or the end plate may be further coupled.

In addition, the first reinforcing material may be molded to have a wavy cross-sectional shape.

According to another suitable embodiment of the present invention, the foundation structure is installed at arbitrary intervals, and the corrugated steel sheet structure is assembled so that the circumferential ends of the corrugated steel sheet structure are fixed to the foundation structure, and then at both longitudinal ends of the corrugated steel sheet structure. Installing a face wall ((a) step), fixing a plurality of stiffener fixing angles in a longitudinal direction to a portion of the corrugated steel sheet structure in contact with the face wall of the corrugated steel sheet structure (step (b)), and in the axial direction of the corrugated steel sheet structure Coupling the first reinforcement consisting of a band plate having a plurality of holes formed in the longitudinal direction to be disposed at right angles to each reinforcing member fixing angle (step (c)), and a plurality of bent portions such that one end is inserted into the hole of the first reinforcing member Coupling the second stiffeners to have a slope with respect to the first stiffener (step (d)), and performing back filling so that the first and second stiffeners are embedded (step (e)). And, the step of reinforcing the end of the corrugated steel sheet structure including the step of performing the steps (b) to (e) repeatedly to the upper end of the corrugated steel sheet structure is provided.

At this time, the other end of the second reinforcing material may be bent or the end plate may be further coupled.

In addition, the first reinforcing material may be molded to have a wavy cross-sectional shape.

According to the present invention, there is provided an end reinforcement of the corrugated steel underground structure which can be reinforced by easy construction and can reduce maintenance costs with better reinforcement performance.

In addition, the first and second reinforcements, which spread like a tree root in the backfilling soil, reduce the earth pressure acting on the portion of the bell mouse, which has a cantilever-like structure, so that deformation can be suppressed as much as possible.

In addition, by installing the first and second reinforcing materials to spread like a tree root in the backfilling soil, it is possible to reinforce the backfilling soil to suppress the occurrence of cracks in the face wall due to the rising of the steel sheet during backfilling.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing an end reinforcement according to the present invention, Figure 2 is a perspective view showing another embodiment of the first reinforcement.

Referring to FIG. 1, the end reinforcement according to the present invention includes a first reinforcement 20 coupled to a reinforcing member fixing angle 10 and a plurality of second reinforcements 30 to be inclinedly coupled to the first reinforcement 20. do.

The reinforcing member fixing angle 10 is to fix the first reinforcing member 20 to the corrugated steel sheet structure. . The reinforcing member fixing angle 10 is formed with at least one hole 11 for joining the corrugated steel sheet structure and bolts, and at least one hole 12 for joining the bolts with the first reinforcing material 20.

The first reinforcement 20 is composed of a strip and is fixed to the reinforcement fixing angle 10 and disposed at right angles to the axial direction of the corrugated steel sheet structure. And a hole corresponding to the number of the second reinforcement 30 so that the hole 21 for bolting to the reinforcement fixing angle 10 and the one end portion 31 of the second reinforcement 30 are inserted in the longitudinal direction. (22) is formed. The arrangement of the second reinforcing member insertion holes 22 may be arranged on the same line in the longitudinal direction of the member, but preferably, staggering of each other may avoid interference between adjacent second reinforcing members 30. Meanwhile, in order to increase the frictional force with the backfilling soil of the first reinforcing material 20, the first reinforcing material 20 may be shaped to have a cross-sectional shape of a waveform as shown in FIG. 2.

The second reinforcement 30 is installed to be inclined to the first reinforcement 20 and a rod-shaped length member bent such that one end is inserted into the hole 22 of the first reinforcement 20 is used. The other end may be bent to settle in the backfilling soil, and instead of bending, as shown in FIG. 1, the end plate 40 may be coupled. That is, the other end portion is coupled to the end plate 40 or bends the second reinforcing material 30 itself so that it can be fixed to the backfilling soil filled in the back surface of the corrugated steel sheet structure. The end plate 40 may be welded or screwed to an end of the second reinforcing material 30 provided with the end plate 40 and then fitted with a nut to fix the end plate 40.

As described above, in the present invention, the plurality of second reinforcing materials 30 are coupled to the first reinforcing material 20 so as to spread out like the root of the tree, compared to the case where the first reinforcing material 20 is reinforced with only the first reinforcing material 20. It can reduce the length and increase the friction with the backfilling soil to increase the resistance to drawing. In addition, since the second reinforcement 30 is simply inserted into the first reinforcement 20, the installation is very simple and easy. As shown, the second reinforcement 30 may be coupled to both sides of the first reinforcement 20 and may be coupled to only one side. And the installation angle and the number of the second reinforcing material 30 is determined by the structural calculation.

Method of reinforcing the end of the corrugated steel plate underground structure using the end reinforcement according to the present invention configured as described above are as follows.

Figure 3 is a cross-sectional view schematically showing a state in which the end reinforcement is reinforced to the end of the corrugated steel sheet structure, Figure 4 is a plan view showing a part, Figure 5a, 5b is the end reinforcing material is coupled to the corrugated steel sheet structure 6 is an enlarged view illustrating main parts, and FIG. 6 is a view schematically illustrating a backfilling step in an end reinforcing process of a corrugated steel sheet structure according to the present invention.

If the bell mouse is applied at the end

First, the base structure 200 is installed at an arbitrary interval, and at least one end portion of the corrugated steel sheet structure 100 is fixed such that circumferential ends of the corrugated steel sheet structure 100 to which the bell mouse is applied are fixed to the base structure 200. 100) (step (a)).

Next, a plurality of reinforcing member fixing angles 10 are fixed to the bell mouse portion of the corrugated steel sheet structure 100 in the longitudinal direction (step (b)), and are disposed at right angles to the axial direction of the corrugated steel sheet structure 100. The first reinforcing member 20 composed of a band plate having a plurality of holes formed in the longitudinal direction so as to be coupled to each reinforcing member fixing angle 10 (step (c)), and then one end is inserted into the hole of the first reinforcing member 20. The plurality of second reinforcing members 30 bent to be coupled to each other to have an inclination with respect to the first reinforcing member 20 (step (d)). At this time, the other end of the second reinforcing material 30 may be bent to be fixed to the backfilling soil or the end plate 40 may be further coupled.

Next, the back filling is performed so that the first and second reinforcing materials 20 and 30 are embedded (step (e)). At this time, the middle portion of the corrugated steel sheet structure is also backfilled at the same time as the end portion. And if the steps (b) to (e) is repeatedly performed to the upper end of the bell mouse of the corrugated steel sheet structure, the end reinforcement is completed.

That is, in the present invention, the reinforcing material fixing angle 10 is bolted to the corrugated steel sheet structure 100 and the first reinforcing material 20 is bolted to the angle 10 and then the second reinforcing material 30 is the first reinforcing material ( Since it is inserted into the hole 22 formed in 10), the reinforcement installation is simple and does not significantly affect the backfilling process after assembling the corrugated steel sheet structure, so that there is no problem of air delay due to end reinforcement. In addition, due to the first and second reinforcement (20, 30) that is spread like a tree roots in the backfilling soil can reduce the earth pressure acting on the portion of the bell mouse, which is a cantilever-like structure to suppress the deformation as much as possible.

Next, when the face wall is provided at the end,

Installing the foundation structure at arbitrary intervals, assembling the corrugated steel sheet structure so that the circumferential ends of the corrugated steel sheet structure are fixed to the foundation structure, and then installing the face walls at the longitudinal ends of the corrugated steel sheet structure ((a)). And (b) fixing the plurality of reinforcing member fixing angles in the longitudinal direction to the portion in contact with the face wall of the corrugated steel sheet structure, and a plurality of holes in the longitudinal direction so as to be disposed perpendicular to the axial direction of the corrugated steel sheet structure. Coupling the first reinforcing member formed of the formed strip to each reinforcing member fixing angle (step (c)), and a plurality of second reinforcing members bent so that one end is inserted into the hole of the first reinforcing member with respect to the first reinforcing member Comparting the step ((d)), and the step of backfilling so that the first and second reinforcement is embedded (step (e)), and the steps (b) to (e) to form a corrugated steel sheet structure To the upper end comprises the step of repeatedly performed. At this time, the other end of the second reinforcing material 30 may be bent to be fixed to the backfilling soil or the end plate 40 may be further coupled.

When the backfill is constrained in the state of constraining the end with the face wall, there is a problem in that maintenance costs are additionally generated due to the crack of the face wall due to the rising of the steel plate, and the aesthetics are deteriorated. As the first and second reinforcing materials are installed, the backfilling soil can be reinforced to suppress the occurrence of cracks in the face wall due to the rising of the steel sheet during the backfilling.

The present invention has been described above in detail by using an embodiment. The presented embodiments are exemplary and can be made by those skilled in the art to various modifications and modifications to the disclosed embodiments without departing from the spirit of the present invention. The scope of the invention is not limited by these modifications and variations, but only by the claims appended below.

1 is an exploded perspective view showing the end reinforcement according to the present invention.

2 is a perspective view showing another embodiment of the first reinforcing material.

3 is a cross-sectional view schematically showing a state in which the end reinforcing material according to the present invention is reinforced at the end of the corrugated steel sheet structure.

Figure 4 is a plan view showing a part of the state the end reinforcement according to the invention is reinforced at the end of the corrugated steel sheet structure.

5a and 5b is an enlarged view of the main portion showing the detail that the end reinforcement is coupled to the corrugated steel sheet structure.

6 is a view schematically illustrating a back filling step in the end reinforcement process of the corrugated steel sheet structure of the end reinforcement according to the present invention.

7 is a perspective view showing an end reinforcement method of a conventional corrugated steel sheet structure.

Claims (9)

A first reinforcing member comprising a band plate disposed at right angles to an axial direction of the corrugated steel sheet structure and having a plurality of holes formed in a longitudinal direction thereof; End reinforcement of the corrugated steel plate underground structure comprising a plurality of second reinforcement is installed to be inclined to the first reinforcement and bent so that one end is inserted into the hole of the first reinforcement. According to claim 1, The other end of the second reinforcing material is bent or the end plate is reinforced, characterized in that the end plate is coupled. The method according to claim 1 or 2, End reinforcement of the corrugated steel plate underground structure, characterized in that the first reinforcing material is formed into a wave. (a) assembling the corrugated sheet structure such that the foundation structures are installed at arbitrary intervals, and at least one end in the axial direction is fixed to both ends of the corrugated sheet structure to which the bellows is applied; (b) fixing a plurality of stiffener fixing angles in a longitudinal direction to the bell mouse portion of the corrugated steel sheet structure; (c) coupling a first reinforcement consisting of a band plate having a plurality of holes formed in a longitudinal direction to be disposed at right angles to an axial direction of the corrugated steel sheet structure, to each reinforcing member fixing angle; (d) coupling a plurality of second stiffeners each bent so that one end is inserted into the hole of the first stiffener to be inclined with respect to the first stiffener; (e) backfilling the first and second reinforcements to be embedded; (f) step (b) to step (e) reinforcing the end of the corrugated steel sheet structure, characterized in that it comprises the step of repeatedly performing to the upper end of the bell mouse of the corrugated steel sheet structure. The method of claim 4, wherein The other end of the second reinforcing material is bent or the end plate is reinforced, characterized in that the end plate is coupled. The method according to claim 4 or 5, The first reinforcing member is a reinforcement method of the end of the corrugated steel plate underground structure, characterized in that formed into a wave. (a) installing the foundation structure at arbitrary intervals, assembling the corrugated steel sheet structure so that the circumferential ends of the corrugated steel sheet structure are fixed to the foundation structure, and then installing the face walls at the longitudinal ends of the corrugated steel sheet structure, (b) fixing a plurality of reinforcing member fixing angles in a longitudinal direction to a portion of the corrugated steel sheet structure in contact with the face wall; (c) coupling a first reinforcement consisting of a band plate having a plurality of holes formed in a longitudinal direction to be disposed at right angles to an axial direction of the corrugated steel sheet structure, to each reinforcing member fixing angle; (d) coupling a plurality of second stiffeners each bent so that one end is inserted into the hole of the first stiffener to be inclined with respect to the first stiffener; (e) backfilling the first and second reinforcements to be embedded; (f) step (b) to step (e) reinforcing the end of the corrugated steel sheet structure comprising the step of repeatedly performing to the upper end of the corrugated steel sheet structure. The method of claim 7, wherein The other end of the second reinforcing material is bent or the end plate is reinforced, characterized in that the end plate is coupled. The method according to claim 7 or 8,  The first reinforcing member is a reinforcement method of the end of the corrugated steel plate underground structure, characterized in that formed into a wave.

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