KR20110093325A - Corrugated steel plate structures - Google Patents

Abstract

PURPOSE: A corrugated steel plate structure is provided to prevent deformation due to overstress caused by the concentration of loads to both upper sides. CONSTITUTION: A corrugated steel plate structure comprises a base part(10) including a concrete bottom(11) acting the floor of an arch space(50), a supporting part(12) which is integrally formed on both sides of the concrete bottom, a guide channel(13) which is coupled to a groove(121) of the supporting part, an arch corrugated steel plate(20) which is inserted in the guide channel, and a reinforcing wall(60) including entrance and exit walls(61,62) which are abutted against both sides of the supporting part.

Description

Corrugated Steel Structures {CORRUGATED STEEL PLATE STRUCTURES}

The present invention relates to a corrugated steel sheet structure. In particular, in the corrugated steel sheet structure having a short width (length) having a reinforcement bulkhead on the inlet and an outlet side and a long span, the rigid steel sheet is a rigid structure which is in contact with each other between the reinforcing steel plates. By slowly converting to prevent deformation to occur in the structure.

In general, the corrugated steel sheet structure has a corrugated cross section on a thin plate-shaped steel sheet to increase the stiffness of 10 to 30 times the thickness of the steel sheet. Each corrugated steel sheet is joined by bolts.

Corrugated steel structures are used as highways, national roads, local roads, archipelagos, underground passages and channel culverts across roads, and are used as ecological bridges where ecological disruptions are expected by facilities such as roads and railways. It is used for roadway and bridge construction for the treatment of drainage function across rivers and reservoirs that can be used for drainage.

When the corrugated steel sheet structure is used as the underground structure, as the external load is supported by the composite action of the ground and corrugated steel sheet, the ground, which is considered only as a load, supports the external load in cooperation with the corrugated steel sheet.

Figure 1 shows a conventional corrugated steel sheet structure such that the corrugated steel sheet structure 80 is supported so that the lower end of both sides of the corrugated wall 82 made of corrugated steel plate on the upper portion of the support portion 81 in which concrete is long poured in the longitudinal direction When both sides of the corrugated loop body 83 are coupled to each other in a curved form at the top of the corrugated wall 82 and are installed on the ground, the inner space may be used as a storage, and both sides may be closed. When installed, it can be used as a storage tank, and when installed in the ground so that both sides are open, it can be utilized as underground passages, channel culverts, ecological bridges and the like.

However, the corrugated steel sheet structure 80 having such a structure has a short width and a relatively long span as deformation due to the load of the corrugated loop body 83 is concentrated on both sides of the upper end of the corrugated wall 82. There was a problem that excessive deformation caused by excessive stress.

In addition, when the live load is repeatedly applied to the upper portion of the corrugated steel sheet structure substantially in the middle of the longitudinal direction, excessive deformation occurs due to the sagging phenomenon of the downward direction in the longitudinal direction or the longitudinal direction due to the increase of the fatigue load. There was a problem.

And this caused a problem that the corrugated steel sheet structure collapses.

The present invention prevents the deformation caused by the load from being concentrated on both sides of the upper part in the corrugated steel sheet structure having a short width and a relatively long span so as to prevent the excessive deformation caused by the excessive stress, and almost in the longitudinal direction. When the live load is repeatedly applied to the upper middle, it prevents the corrugated steel sheet from collapsing by preventing the sagging phenomenon from the longitudinal direction or the longitudinal direction due to the increase of the fatigue load.

According to the present invention, the lower both sides of the arch wave steel plate 20 are coupled to each other on the upper sides of the base portion 10 so that the arch space portion 50 is formed inward, and outside the entrance and exit of the arch space portion 50. In the corrugated steel sheet structure (A) configured to be coupled to the reinforcement bulkhead 60, the base portion 10 is formed with a concrete bottom portion 11 having a width, length and thickness below the arch space portion 50 The grooves 121 are formed on both sides of the concrete floor portion 11 so that the support portions 12 which extend in the longitudinal direction are integrally formed so that the guide channel 13 is coupled to the groove portions 121. The lower part of the arch wave steel plate 20 is inserted and fixed to the guide channel 13, and the reinforcing partition 60 has an inlet formed to correspond to an arcuate inlet 611 and an arcuate outlet 621, each of which has an open bottom. It is composed of a wall 61 and the outlet wall 62, the lower side of the inlet and outlet walls 61, 62 Being formed to be butted against each other on one side of the portion 12, and the lower the other side of the inlet and outlet walls 61 and 62 formed to be butted against each other, characterized in the other side of the support 12.

In addition, the inner side of the reinforcing arch member 30 to the arch arch 201 formed in the arch direction on the outside of the arch wave steel plate 20 is coupled to a plurality of fixing brackets 40, the reinforcing arch member ( Both sides of the lower side 30 is characterized in that each is inserted into the guide channel (13).

In addition, the reinforcement arch member 30 is composed of a hollow pipe 301, the pipe 301 is a pipe socket portion formed to extend in the longitudinal direction wider cross-sectional area of the other end than the cross-sectional area of one end 302 is formed to the reinforcement arch member 30 is repeatedly coupled in the arch direction, the pipe 301 is characterized in that composed of any one of steel pipe, plastic pipe, aluminum pipe and cast iron pipe.

In addition, the reinforcement arch member 30 is characterized in that the filler (C) is filled and cured therein.

In addition, the fixing bracket 40 is empty inside, the flange 402 formed with the through-hole 403 on both sides of the lower side of the fixing piece 401 having a convex shape is formed integrally to be bent in the outward direction. It features.

In addition, the other side is buried so that the ring 701 formed at one side of the ring bolt 70 is exposed on the inner upper portion of the inlet wall 61 and the outlet wall 62, and the exposed ring 701. One side of the binding member 71 is fixed, and the other side of the binding member 71 is characterized in that it is tightly tied to the bracket ring bolt 72 coupled to the fixing piece 401 of the fixing bracket 40.

In addition, the arch wave steel sheet 20 is characterized in that the inlet side and the outlet side is inserted into the inlet wall 61 and the outlet wall 62 to a predetermined depth.

In the present invention, the reinforcing arch member is coupled to the upper portion of the corrugated steel sheet which is in contact with the reinforcing bulkhead of the corrugated steel sheet structure having a short width and long span, and the other side of the binding member in which one side is tied to the ring bolt of the reinforcing bulkhead is reinforced. By being tied to and fixed to the member,

It is possible to prevent the deformation due to excessive stress by alleviating the concentration of stress to the part where the boundary between the reinforcement bulkhead and the corrugated steel, which is the boundary between the rigid concrete wall and the weak corrugated steel, is obtained. That is, it is possible to obtain an effect that the secondary deformation generated during the construction of the corrugated steel sheet can be prevented by smoothly changing the rigidity.

In addition, since the corrugated steel sheet is reinforced by the reinforcement arch member, it prevents deformation from occurring in the long term, thereby increasing safety against load increase unexpectedly during use, and preventing deformation, thereby obtaining an effect of extending the service life. Can be.

In addition, it is possible to prevent the deflection deformation generated in the longitudinal direction of the corrugated steel sheet to prevent the deformation from being transferred to the interplanar direction, through which it is possible to obtain the effect of further increasing the safety of the corrugated steel sheet structure.

1 is a perspective view of a corrugated steel sheet structure according to the prior art.
Figure 2 is a perspective view of a corrugated steel sheet structure according to the present invention.
Figure 3 is an exploded perspective view of the corrugated steel sheet structure according to the present invention.
Figure 4 is a longitudinal sectional view of the corrugated steel sheet structure according to the present invention.
Figure 5 is a longitudinal cross-sectional view of the corrugated steel sheet structure according to the present invention.

An embodiment of the present invention will be described with reference to the accompanying drawings.

Corrugated steel sheet structure (A) according to the present invention, as shown in Figures 2 to 5, both sides of the lower portion of the arch wave steel plate 20 is coupled to the upper side of the upper side of the base portion 10 to the arch space portion inward 50 is formed, the reinforcing partition 60 is configured to be coupled to the outside of the entrance and exit of the arch space portion 50.

Here, the base portion 10 has a concrete bottom portion 11 having a width, length and thickness below the arch space portion 50 is formed to a predetermined thickness, both sides of the concrete bottom portion 11 The upper portion 121 is formed integrally to protrude the support portion 12 is continuous in the longitudinal direction.

The guide channel 13 is coupled to the groove 121, and the guide channel 13 is bent so that both sides of the steel plate face upwards. Each groove 121 formed on the upper portion of the base 12 is formed. The lower portion of the arch-formed steel plate 20 to be described below is inserted to be configured to be abutted.

The guide channel 13 may be inserted into the groove 121 after the groove 121 is formed in advance on the upper portion of the support 12, and is simultaneously constructed in the process of supporting the support 12. It can be done.

The guide channel 13 is preferably formed to form a through-hole not shown in the center, the anchor bolt is penetrated through the through-hole in the state in which the anchor bolt is embedded in the groove 121 to be coupled to the anchor nut. .

The arch wave steel sheet 20 is a steel plate having a flat plate shape using a press to have a cross section and curvature of the waveform to increase rigidity. It is composed of fork. At this time, the lower part is fixed while being inserted into the guide channel 13, and the upper part is fixed to the upper side inserted into the guide channel 13, and is installed to have an overall arch shape. .

The arch wave steel sheet 20 is inserted into the inlet wall 61 and the outlet wall 62 constituting the reinforcement bulkhead 60, which will be described later, the inlet side and the outlet side, respectively, to be generated in the rigid boundary portion It is possible to prevent the shape change, that is, deformation of the corrugated steel sheet.

The reinforcement arch member 30 is coupled to the arch arch 201 formed in the arch direction on the outside of the arch wave steel plate 20 to reinforce the strength and at the same time to distribute the load to the reinforcement arch member The inner side of the 30 is configured to be coupled to a plurality of fixing brackets 40 to face each other. At this time, the lower side of both sides of the reinforcement arch member 30 is configured to be fixed to the guide channel 13, respectively.

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중 어느 하나의 형태를 갖도록 하는 것이 바람직하며 특히 강파이프, 플라스틱파이프, 알루미늄파이프 및 주철파이프 중 어느 하나로 구성되게 하는 것이 더욱 바람직하다.The reinforcement arch member 30 is composed of a hollow pipe 301, the pipe 301 is a pipe socket portion 302 formed to extend in the longitudinal direction wider cross-sectional area of the other end than the cross-sectional area of one end ) Is formed so that the reinforcement arch member 30 is repeatedly coupled in the arch direction. The pipe 301 is

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It is preferable to have any one of the forms, and more particularly, to be composed of any one of steel pipe, plastic pipe, aluminum pipe and cast iron pipe.

The reinforcement arch member 30 may be prevented from buckling by increasing the strength of the reinforcement arch member 30 by filling and curing the filler C therein.

The fixing bracket 40 has a function of preventing the separation or separation from the bone arch 201 of the arch wave steel plate 20 coupled in an arch shape to the outside of the pipe 301 that is the reinforcement arch member 30. The inside is empty to wrap, and the flange 402 having the through holes 403 formed on both sides of the lower side of the fixing piece 401 having a convex shape is formed integrally to be bent outward.

The reinforcing partition 60 is constructed on both sides of the arch space portion 50 which is provided to the inner side of the upper portion of the bottom portion 11 and the support portion 12 and the arch wave steel plate 20 is coupled to each lower It is composed of an inlet wall 61 and an outlet wall 62 in which an arcuate inlet 611 and an arcuate outlet 621 are opened.

One lower side of the entrance and exit walls 61 and 62 is formed to face one side of the support part 12, and the other end of the lower entrance and exit walls 61 and 62 is opposed to the other side of the support part 12. It is.

The inner side of the inlet wall 61 and the outlet wall 62, the other side is buried to expose the ring 701 formed on one side of the ring bolt 70, respectively, binding member to the exposed ring 701 One side of 71 is tied and fixed.

The other side of the binding member 71 tied to the ring 701 is configured to be tightly tied to the bracket ring bolt 72 coupled to the fixing piece 401 of the fixing bracket 40. The binding member 71 is to be composed of any one of a wire, a wire, a cable and a rebar.

Such a corrugated steel sheet structure (A), first, to excavate the place where the structure is to be installed so that the formwork and reinforcing bars are arranged in the upper part of the flat compacted floor, and then poured concrete to the concrete floor 11 and concrete floor The support part 12 having the groove part 121 on both sides of the part 11 is to be constructed long in the longitudinal direction.

Next, the guide channel 13 is inserted into the groove 121 formed as an upper portion of the support 12 so that the guide channel 13 is coupled to each other, and then the arch wave steel plate 20 having the valley 201 on the upper side of the guide channel 13. The lower part of the is to be inserted and fixed.

Next, the arch space portion 50 is provided by repeating the lower edge of the edge of the other corrugated steel sheet 20 having the same structure against the pre-installed arch corrugated steel sheet 20 by bolts and nuts.

Next, an inlet wall 61 and an outlet wall 62 having an arcuate inlet 611 and an arcuate outlet 621 at the inlet and outlet sides of the arch space 50 are to be constructed. At this time, the ring bolt 70 is embedded or inserted into the inlet wall 61 and the outlet wall 62 so that the ring 701 is exposed, and the arch wave steel plate 20 has an inlet side and an outlet side. Each of the inlet walls 61 and the outlet walls 62 is inserted to a predetermined depth.

Next, the pipe 301 constituting the reinforcement arch member 30 is abutted on the valley arch 201 formed in the arch wave steel plate 20. At this time, the other pipe 301 is repeatedly coupled to the pipe socket portion 302 of the pipe 301 so as to be opposed to the outside of the arch wave steel plate 20. In this case, the pipe 301 may use both hollow and filled, or only one of them may be selectively used in the field.

Next, a through-hole formed in the flange 402 after the fixing piece 401 formed on the fixing bracket 40 to the pipe 301 but the pipe 301 abuts the bone arch 201 to surround the pipe 301 ( Through 403, the bolt B is fixed by repeatedly tightening the nut N through the arch wave steel plate 20. At this time, the bracket ring bolt 72 is coupled to the fixing piece 401 to be coupled.

Then, one side of the binding member 71 is bundled and fixed to the ring 701 of the ring bolt 72 exposed inwardly of the inlet wall 61 and the outlet wall 62, and then the other side of the binding member 71. The corrugated steel sheet structure is constructed by being tightly bound to the bracket ring bolt 72 coupled to the fixing piece 401 of the fixing bracket 40.

A: corrugated steel sheet structure 10: foundation part
11: Concrete bottom part 12: Foundation part
13: Guide Chanel 20: Arch waveform
50: arch space 60: reinforcement bulkhead
61: entrance wall 62: exit wall
121: groove 611: arch type entrance
621: arch type exit

Claims (7)

The lower both sides of the arch-shaped steel plate 20 are coupled to each other on the upper sides of the base portion 10 so that an arch space portion 50 is formed inward, and a reinforcing partition wall is formed outside the entrance and exit of the arch space portion 50. In the corrugated steel sheet structure (A) configured to be coupled 60,
The base 10 has a concrete bottom 11 having a width, length, and thickness formed under the arch space 50, and grooves 121 are formed on both sides of the concrete bottom 11. The support part 12 which continues in the direction is integrally formed to protrude so that the guide channel 13 is coupled to the groove part 121, and the lower portion of the arch wave steel plate 20 is inserted and fixed to the guide channel 13. The reinforcing bulkhead 60 is composed of an inlet wall 61 and an outlet wall 62 formed to correspond to an arcuate inlet 611 and an arcuate outlet 621 having a lower opening, respectively, The lower one side of the 61 and 62 is formed to face one side of the support 12, the lower other side of the entrance and exit wall 61, 62 is formed to be opposite to the other side of the support 12. Corrugated steel sheet structure. The method of claim 1,
The inner side of the reinforcing arch member 30 is coupled to the valley arch 201 formed in the arch direction on the outside of the arch wave steel plate 20 is coupled to a plurality of fixing brackets 40, the reinforcing arch member 30 Both sides of the lower portion of the corrugated steel sheet structure, characterized in that each of the guide channel 13 is fixed to be inserted. The method of claim 2,
The reinforcement arch member 30 is composed of a hollow pipe 301, the pipe 301 is a pipe socket portion 302 formed to extend in the longitudinal direction wider cross-sectional area of the other end than the cross-sectional area of one end ) Is formed so that the reinforcement arch member 30 is repeatedly coupled in the arch direction, the pipe 301 is a corrugated steel sheet structure, characterized in that composed of any one of steel pipe, plastic pipe, aluminum pipe and cast iron pipe. The method according to claim 2 or 3,
The reinforcement arch member 30 is a corrugated steel sheet structure, characterized in that the filler (C) is filled and cured therein. The method of claim 2,
The fixing bracket 40 is empty inside, and the flange 402 having the through holes 403 formed on both sides of the lower side of the fixing piece 401 having a convex shape is formed integrally to be bent outward. Corrugated steel sheet structure. The method of claim 1,
The other side is buried so that the ring 701 formed at one side of the ring bolt 70 is exposed on the inner upper portion of the inlet wall 61 and the outlet wall 62, and the wire (701) is exposed on the exposed ring 701. One side of the 71 is tied and fixed, the other side of the wire (71) is a corrugated steel structure, characterized in that it is tightly tied to the bracket ring bolt (72) coupled to the fixing piece (401) of the fixing bracket (40). The method of claim 1,
The corrugated steel sheet 20 is a corrugated steel sheet structure, characterized in that the inlet side and the outlet side is inserted into the inlet wall 61 and the outlet wall 62 to a predetermined depth, respectively.

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