KR101870941B1 - Connecting structure of curved portion of the corrugated steel plate structure - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a curved portion connecting structure of a corrugated steel plate structure, and more particularly, to a curved portion connecting structure of a corrugated steel plate structure having a straight corrugated portion and a curved portion of the corrugated steel plate structure, Coupling structure.
The curved portion connecting structure of the corrugated steel plate structure of the present invention has a high structural strength because the joint portion is minimized and the vertical deformation force due to the load of the soil or concrete stacked upward by the first and second flange portions extending in the left- Which is advantageous in that the resistance is high.

Description

[0001] The present invention relates to a corrugated steel plate structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a curved portion connecting structure of a corrugated steel plate structure, and more particularly, to a curved portion connecting structure of a corrugated steel plate structure having a straight corrugated portion and a curved portion of the corrugated steel plate structure, Coupling structure.

Generally, a plate-shaped steel plate having a predetermined thickness and width is used for tunnels, ecological passages, underground passages, water, and drainage ducts by bending or elastically deforming the steel plates in various forms and assembling them to have a continuous tunnel shape in the lateral direction It is being used for various purposes such as other rescue cells, drains, roofs, warehouses.

Such a steel plate uses a single bent steel plate when the size of the steel plate is small. When the steel plate is large in size, the diameter of the steel plate is increased during the bending process, and the unit corrugated steel plate is divided into several sheets. And a structure suitable for the purpose is installed through an assembly process such as bolting.

In addition, as a method for uniformly performing a load or an impact force acting on the thin steel plate in various directions from the lateral direction, the bending direction, the longitudinal direction and the multiple direction to increase the load-carrying capacity uniformly, A corrugated steel sheet which is a corrugated steel sheet is used.

When such a corrugated steel plate is used to construct a structure, it is necessary to excavate the ground to be constructed, that is, the bottom to a certain depth, to tile the foundation ground, to form and reinforce the concrete, then to install the concrete anchor and channel, Cure and dismantle the dice. It is necessary to fix the corrugated steel plate with the bottom of the corrugated steel plate at right angles, fix it with the bolt and nut, and repeat the bolting work to bond the corrugated steel plate with the corrugated steel plate A corrugated steel plate structure can be obtained.

However, in the conventional corrugated steel plate structure, it is easy to install the corrugated steel plate structure at a place having a straight line shape, and it is impossible to construct the corrugated steel plate structure so that it is curved along the curved portion of the road and the curved portion of the river. The operation time is long, the cost is increased, and the cost is increased.

Korean Patent Registration No. 10-0634019 discloses a jointing method and a jointing structure in which a corrugated steel plate assembly structure can be installed in a curved portion of a road. However, the corrugated steel plate assembly structure has a disadvantage in that it is structurally weak against shocks and loads due to a large number of joints.

Korean Patent Registration No. 10-0634019: Jointing Method and Joint Structure of Corrugated Steel Plate Assemblies Korean Utility Model Registration No. 120-0410474; Curved structure of corrugated steel structure

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a curved portion coupling structure of a corrugated steel plate structure that minimizes a joint portion to secure structural stability and thereby reduce anticipated corrosion.

According to an aspect of the present invention, there is provided a corrugated structure of a corrugated steel plate structure, including a first curved surface having first and second cut surfaces, A first and a second corrugated steel plate structure; And the first and second corrugated steel plate structures are formed on both sides of the first and second corrugated steel plate structures so as to be respectively coupled to the first and second corrugated steel plate structures, And a corrugated steel plate structure joining unit provided with first and second flange portions extending toward the first and second corrugated steel plate structures.

Wherein the corrugated steel plate structure coupling unit comprises: a first connection member to be coupled to the first corrugated steel plate structure at one side; a second connection member to be coupled to the second corrugated steel plate structure at one side and coupled to the first connection member at the other side; And a connecting unit reuniting unit for connecting the first connecting member and the second connecting member to each other, wherein the first connecting member includes the first flange, And a first vertical connection portion extending in the longitudinal direction of the cut surface and having a predetermined length in the vertical direction, wherein the first flange portion is located below the first corrugated steel plate structure coupled to one surface of the first vertical connection portion, A protrusion extending from one surface of the first vertical connection part and extending along the longitudinal direction of the first vertical connection part so as to form a flow path through which water leakage can be generated from above The second connecting member is formed to be symmetrical with respect to the second flange portion and the first connecting member so that one surface is engaged with the second cut surface of the second corrugated steel plate structure and the other surface is joined with the first vertical connecting portion And the second vertical connecting portion is formed so as to protrude from one surface of the second vertical connecting portion so that the second vertical connecting portion is formed with a flow path through which leakage can be generated, desirable.

Wherein the first and second flange portions are respectively bent in the lower portions of the first and second vertical connection portions along the longitudinal direction of the first and second vertical connection portions in the direction of the first and second corrugated steel plate structures, And the second vertical connection portion.

Wherein the connection unit is provided with a through member to be inserted through at least one first and second connection holes formed at respective mutually corresponding positions of the first vertical connection unit and the second vertical connection unit, And a coupling member for coupling the first vertical connecting portion and the second vertical connecting portion to prevent the penetrating member from separating from the first vertical connecting portion and the second vertical connecting portion, wherein the first flanging portion extends to correspond to the longitudinal direction of the first vertical connecting portion, A third coupling hole formed to extend in the vertical direction so as to have a predetermined width that can be brought into contact with one surface of the vertical connection portion and passing through at a position corresponding to the first coupling hole, A first vertical connection portion coupled to a lower portion of the first vertical connection portion, and a second vertical connection portion extending from the upper end of the first vertical connection portion in a direction away from the first vertical connection portion And a first flow path forming part extending toward the first end of the first corrugated steel plate so as to be closer to the first corrugated steel plate structure and forming the flow path together with the first vertical connecting part, wherein the second flange part is formed symmetrically with respect to the first flange part A second vertical connection portion formed with a fourth connection hole formed at a position corresponding to the second connection hole and coupled with a lower portion of the second vertical connection portion through the connection portion recombination unit, And a second flow path forming portion extending in a direction away from the second vertical connection portion at an upper end of the second corrugated steel sheet portion and extending toward the second corrugated steel plate structure toward the end to form the flow path together with the second vertical connection portion.

The first vertical connection part and the second vertical connection part are formed to extend in the longitudinal direction of the first vertical connection part and the second vertical connection part and have a width greater than the thickness of the first vertical connection part and the second vertical connection part, And a waterproof member for preventing an occurrence of water leakage between gaps where the first vertical connection part and the second vertical connection part are in contact with each other by forming an insertion groove upwardly inserted in the lower surface so that the upper end of the second connection member can be inserted therein .

The curved portion connecting structure of the corrugated steel plate structure of the present invention has a high structural strength because the joint portion is minimized and the vertical deformation force due to the load of the soil or concrete stacked upward by the first and second flange portions extending in the left- Which is advantageous in that the resistance is high.

In addition, the curved portion coupling structure of the corrugated steel plate structure of the present invention has an advantage that corrosion occurrence can be reduced since the joint portion is minimized.

1 is a perspective view of a curved portion coupling structure of a corrugated steel plate structure according to a first embodiment of the present invention,
FIG. 2 is a side view of the curved portion coupling structure of the corrugated steel plate structure of FIG. 1,
3 is a sectional view of the curved portion coupling structure of the corrugated steel plate structure of FIG. 2
4 is a partial sectional view of a curved portion coupling structure of a corrugated steel plate structure according to a second embodiment of the present invention,
5 is a side view of a curved portion coupling structure of a corrugated steel plate structure according to a third embodiment of the present invention,
6 is a partial perspective view of a curved portion coupling structure of a corrugated steel plate structure according to a fourth embodiment of the present invention.

Hereinafter, a curved structure of a corrugated steel plate structure according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 show a curved structure 1 of a corrugated steel plate structure according to a first embodiment of the present invention.

The curved portion coupling structure 1 of the corrugated steel plate structure according to the first embodiment of the present invention includes the first and second corrugated steel plate structures 10 and 20 and the corrugated steel plate structure coupling unit 30.

The first and second corrugated steel plate structures 10 and 20 are semicircularly formed by combining a semicircular corrugated steel sheet or a plurality of corrugated steel sheets formed with an arc curvature.

The first and second corrugated steel plate structures 10 and 20 are installed in the curved portion of the road or river so that the first and second corrugated steel plate structures 10 and 20 correspond to the angles of refraction of the curved portion of the road or river, First and second cut surfaces 11 and 21 are formed at each end, which are cut at the same angle, to be interconnected so as to be joined at the angle of refraction a of the curved portion.

The corrugated steel plate structure coupling unit 30 is provided with a first corrugated steel plate structure 10 and a second corrugated steel plate structure 20 on both sides thereof, And is formed to have an arcuate curvature.

The corrugated steel plate structure joining unit 30 has a structure in which corrugation of the joining portions 13 and 23 is covered below the joining portions 13 and 23 which are respectively engaged with the first and second cut surfaces 11 and 21, So that the flow passages 49 and 59 are formed on both sides so that they can flow along the extension direction.

The corrugated steel plate structure coupling unit 30 includes a first connection member 40 and a second connection member 50 connection reassembly unit 60.

2 and 3, the first connection member 40 is coupled to the first corrugated steel plate structure 10 on one side and to the second connection member 50 on the other side. The second connecting member 50 is coupled to the second corrugated steel plate structure 20 on one side and to the other side of the first connecting member 40 on the other side. And the first and second connecting members 40 and 50 are coupled to each other through the connecting-unit recombination unit 60.

The first connection member 40 includes a first vertical connection portion 41 and a first flange portion 45.

The first vertical connecting portion 41 is extended and formed so as to have an arc curvature corresponding to the traveling direction of the first cut surface 11 so as to be engaged with the first cut surface 11 of the first corrugated steel plate structure 10, Have a certain length. The first corrugated steel plate structure 10 is coupled to one side of the first vertical connection part 41 and is brought into contact with the second vertical connection part 51 of the second connection member 50 described later on the other side.

The first corrugated steel plate structure 10 is formed such that one side of the first cut surface 11 and the first vertical connection portion 41 are in contact with each other and the first vertical connection portion 41 ). Accordingly, as shown in FIG. 2, the first welded portion 48 is formed between the first corrugated steel plate structure 10 and the first vertical connection portion 41.

The first vertical connection part 41 is formed with first coupling holes 42 and 43 which are formed in the upper and lower parts in a direction to contact with the second vertical connection part 51, which will be described later. A plurality of first coupling holes (42, 43) are formed in the upper and lower portions, respectively, with the first corrugated steel plate structure coupled to the first vertical connection portion interposed therebetween. The first coupling holes 42 and 43 are portions through which the coupling-unit recombination unit 60 to be described later penetrates.

The first flange portion 45 is formed below the first corrugated steel plate structure coupled to the first vertical connection portion. The first flange 45 protrudes from the first vertical connecting portion 41 coupled to the first cut surface 11 in the direction of the first corrugated steel plate structure 10 and extends in the direction of the first vertical connecting portion 41 And extend along the longitudinal direction. As shown in FIGS. 2 and 3, the first flange portion 45 is provided at each lower portion of the first vertical connection portion 41 along the longitudinal direction of the first vertical connection portion 41 in the direction of the first corrugated steel plate structure And is integrally formed with the first vertical connection portion.

The first flange portion 45 is extended from one end of the first vertical connection portion 41 to the lower end of the first vertical connection portion 41 so as to be closer to the first corrugated steel plate structure toward the other end away from the first vertical connection portion 41, The flow path 49 is formed along the longitudinal direction of the first connection member 40 together with the connection portion 41.

The second connection member 50 is formed symmetrically to the first connection member 40 and includes a second vertical connection portion 51 and a second flange portion 55.

The second vertical connection part 51 is formed so as to have an arc curvature corresponding to the traveling direction of the second cut surface 21 so as to be engaged with the first cut surface 21 of the second corrugated steel plate structure 20, And has a certain length. The second corrugated steel plate structure 20 is coupled to one side of the second vertical connection part 51 and is brought into contact with the first vertical connection part 41 of the first connection member 40 described later on the other side.

The second corrugated steel plate structure 20 is constructed such that one side of the second cut surface 21 and the second vertical connection portion 51 are in contact with each other and the second vertical connection portion 51 ). 2, the second welded portion 58 is formed between the second corrugated steel plate structure 20 and the second vertical connection portion 51, as shown in FIG.

The second vertical connection part 51 is formed with second connection holes 52 and 53 formed at positions corresponding to the first and second connection holes in the direction perpendicular to the first vertical connection part 41. The plurality of second coupling holes 52 and 53 are formed in the upper and lower portions, respectively, with the second corrugated steel plate structure 20 coupled to the second vertical connection portion 51 interposed therebetween. The second engaging holes 52 and 53 are portions through which the penetrating members 61 and 62 of the connecting portion reuniting unit 60 penetrating the first engaging holes 42 and 43 pass.

The second flange portion 55 is formed below the second corrugated steel plate structure coupled to the second vertical connection portion. The second flange portion 55 is extended from the first vertical connection portion 51 coupled to the second cut surface 21 so as to protrude in the direction of the second corrugated steel plate structure 20 and has a second vertical connection portion 51, As shown in Fig. The second flange portion 55 is bent in a predetermined length in the direction of the second corrugated steel plate structure along the longitudinal direction of the second vertical connection portion 51 at each lower portion of the second vertical connection portion 51 and is integrally formed with the second vertical connection portion 51 .

Referring to FIGS. 2 and 3, the second flange portion 55 is closer to the second corrugated steel plate structure at one end connected to the lower end of the second vertical connection portion 51 toward the other end away from the second vertical connection portion 51 So as to form a flow path 59 in the longitudinal direction of the second connection member 50 together with the second vertical connection part 51. [

Since the first and second flange portions 45 and 55 protrude in the left and right direction with respect to the first and second vertical connection portions, the first and second corrugated steel plate structures 10 and 20 and the corrugated steel plate structure coupling unit 30, And it increases the resistance to the vertical deformation force due to the load of the soil or concrete laid or poured upward.

The connecting unit reuniting unit 60 is a unit for connecting the first connecting member and the second connecting member to each other and is formed by passing through the first vertical connecting portion 41 and the second vertical connecting portion 51, (61, 62) which are inserted through the first and second coupling holes (61, 62), and a through member (61, 62) 61, 62, respectively.

The penetrating member includes a first bolt 61 passing through the first and second coupling holes 42 and 52 formed in the upper portions of the first and second vertical connection portions 41 and 51, And a second bolt 62 passing through the first and second coupling holes 43 and 53 formed in the lower portions of the coupling portions 41 and 51, respectively.

The coupling member is divided into a first nut 65 screwed to the first bolt 61 passing through the first and second vertical connection portions and a second nut 66 screwed to the second bolt 62 do.

As shown in FIG. 2, the upper part of the curved portion coupling structure of the corrugated steel plate structure according to the first embodiment of the present invention is formed with a coating film waterproof layer 70 using an elastic epoxy resin system.

The curved portion coupling structure 1 of the corrugated steel plate structure according to the first embodiment of the present invention having the above-described structure has the first and second vertical connection portions 41 and 51, (45, 55) are integrally formed in a bent manner, the structural strength is high. Therefore, it is highly resistant to the vertical deformation force against the load of the soil or concrete placed on the upper part. Further, the curved portion coupling structure (1) of the corrugated steel plate structure has an advantage that the occurrence of corrosion can be reduced since the joint portion is minimized.

4 shows a curved portion coupling structure 2 of a corrugated steel plate structure according to a second embodiment of the present invention. The same reference numerals denote the same elements as those in the drawings.

The first connection member 140 includes a first vertical connection portion 41 and a first flange portion 145 that are separated from each other. The first flange part 145 includes a first vertical connection part 146 and a first flow path forming part 148.

The first vertical connection part 146 is formed to extend in a vertical direction corresponding to the longitudinal direction of the first vertical connection part 41 and to extend in a vertical direction so as to have a predetermined width that can be contacted to one surface of the first vertical connection part 41 do. The first vertical coupling portion 146 is formed at a position corresponding to the first coupling hole 43 to form a third coupling hole (not shown) through which the second bolt 62 passes.

The first flow path forming portion 148 extends from the upper end of the first vertical connecting portion 146 in a direction away from the first vertical connecting portion 41 and extends toward the first corrugated steel plate structure 10 toward the end And forms a flow path 49 together with one surface of the first vertical connection part 41.

The second flange portion 155 is formed symmetrically to the first flange portion 145 and includes a second vertical connection portion 156 and a second flow path forming portion 158.

The second vertical connection part 156 is symmetrical with the first vertical connection part and is in contact with one surface of the second vertical connection part 51 and is formed at a position corresponding to the second connection hole and the third connection hole A fourth engaging hole (not shown) through which the second bolt 62 passes is formed.

The second flow path forming part 158 extends from the upper end of the second vertical connecting part 156 in a direction away from the second vertical connecting part 51 and extends toward the end of the second vertical connecting part 156 toward the second corrugated steel plate structure 20 And forms a flow path 59 together with one surface of the second vertical connection part 51.

The curved portion coupling structure (2) of the corrugated steel plate structure according to the second embodiment of the present invention is characterized in that the first and second flange portions are separated into the first and second vertical connection portions, but the second bolt and the second nut So that the structural strength is higher than the welding method.

5 shows a curved portion coupling structure 3 of a corrugated steel plate structure according to a third embodiment of the present invention. The same reference numerals denote the same elements as those in the drawings. The curved portion coupling structure 3 of the corrugated steel plate structure according to the third embodiment of the present invention is different from the curved portion coupling structure 2 of the corrugated steel plate structure according to the second embodiment of the present invention, And the forming portions 248 and 258 are formed at the lower ends of the first and second vertical connecting portion engaging portions 146 and 156.

The first connection member 240 includes a first vertical connection portion 41 and a first flange portion 245, which are separated from each other.

The first flange portion 245 includes a first vertical connection portion 146 and a first flow path forming portion 248. The first flow path forming portion 248 extends from the lower end of the first vertical connecting portion 146 in the direction away from the first vertical connecting portion 41 and extends toward the first corrugated steel plate structure 10 toward the end thereof And forms a flow path 49 together with one surface of the first vertical connection part 41.

The second flange portion 255 includes a first vertical connection portion 156 formed to be symmetrical with the first vertical connection portion coupling portion 146 and a second flow path formation portion 258. The second flow path forming part 258 extends in the direction away from the second vertical connecting part 51 at the lower end of the second vertical connecting part 156 and extends toward the second corrugated steel plate structure 20 toward the end And forms a flow path 59 together with one surface of the second vertical connection part 51.

6 shows a curved portion coupling structure 4 of a corrugated steel plate structure according to a third embodiment of the present invention. The same reference numerals denote the same elements as those in the drawings.

The curve fitting structure 4 further includes a waterproofing member 170 covering the upper ends of the first connecting member and the second connecting member. The waterproofing member 170 is formed to extend along the longitudinal direction of the first vertical connection part 41 and the second vertical connection part 51 so that the thickness of the first vertical connection part 41 and the second vertical connection part 51 And is formed to have a wide width. The waterproofing member 170 is formed with an insertion groove 171 which is upwardly inserted into the lower surface of the first coupling member 40 and the second coupling member 50 so that the upper ends of the first coupling member 40 and the second coupling member 50 can be inserted.

The waterproofing member 170 is installed such that the upper ends of the first vertical connection portion and the second vertical connection portion are inserted into the insertion groove 171 so that leakage is prevented between the first vertical connection portion 41 and the second vertical connection portion 51 . The waterproofing member 170 is preferably made of a material such as synthetic resin that does not rust.

The curved portion-joining structure of the corrugated steel plate structure of the present invention has a high structural strength because the joining portion is minimized, and the first and second flange portions extended in the lateral direction It has a high resistance to vertical strain.

In addition, since the curved portion connecting structure of the corrugated steel plate structure of the present invention flows through the flow path formed along the curvature of the first and second connecting members 40 and 50, There is an advantage that the leakage of water does not occur.

The curved subassembly structure of the corrugated steel plate structure according to the present invention has been described with reference to the example shown in the drawings, but the present invention is not limited thereto. Various modifications and changes may be made thereto by those skilled in the art. It will be appreciated that other equivalent embodiments are possible. Therefore, the scope of the true technical protection of the present invention should be determined by the technical idea of the appended claims.

1: Coupled structure of curved part of corrugated steel structure
10: first corrugated steel plate structure 20: second corrugated steel plate structure
30: corrugated steel plate structure coupling unit 40: first connection member
41: first vertical connecting portion 42.43: first connecting hole
45: first flange portion 48: first welding portion
50: second connecting member 51: second vertical connecting portion
52: 53: second coupling hole 55: second flange portion
58: second welding portion 60: connecting portion recombining unit
61: penetrating member 65: engaging member

Claims (5)

First and second corrugated steel plate structures each having an arc curvature in which first and second cut surfaces are cut at the same angle so as to be mutually coupled at a predetermined angle of refraction;
And the first and second corrugated steel plate structures are formed on both sides of the first and second corrugated steel plate structures so as to be respectively coupled to the first and second corrugated steel plate structures, And a corrugated steel plate structure joining unit provided with first and second flange portions extending toward the first and second corrugated steel plate structures,
The corrugated steel plate structure coupling unit
A first connecting member to be coupled with the first corrugated steel plate structure on one side, a second connecting member to be coupled to the second corrugated steel plate structure on one side and to be coupled to the first connecting member on the other side, And a connection unit recombining unit for connecting the second connection members to each other,
The first connecting member includes a first vertical connecting portion extending in the longitudinal direction of the first cut surface so as to be coupled to the first flange portion along the first cut surface and having a predetermined length in the vertical direction, ,
The first flange portion is formed to protrude from one surface of the first vertical connection portion and is disposed below the first corrugated steel plate structure coupled to one surface of the first vertical connection portion, And a flow path through which leakage water that can be generated from above can flow can be formed,
Wherein the second connecting member is formed to be symmetrical with respect to the second flange portion and the first connecting member and has one side joined to the second cut surface of the second corrugated steel plate structure and the other side joined to the first vertical connecting portion, 2 vertical connection parts,
Wherein the second flange portion protrudes from one surface of the second vertical connection portion so as to form a flow path through which leakage water that can be generated from above along with the second vertical connection portion can flow. Bonded structure. delete The apparatus of claim 1, wherein the first and second flange portions
The first and second vertical connection parts are respectively bent in the longitudinal direction of the first and second vertical connection parts in the direction of the first and second corrugated steel plate structures and integrally formed with the first and second vertical connection parts, And the curved portion coupling structure of the corrugated steel plate structure. The connector according to claim 1,
A penetrating member inserted through at least one of the first and second coupling holes formed at the mutually corresponding positions of the first vertical connection portion and the second vertical connection portion, And a coupling member for preventing the penetration member from being separated from the vertical connection portion and the second vertical connection portion,
The first flange portion
A first vertical connection part extending in a longitudinal direction of the first vertical connection part and extending in a vertical direction so as to have a predetermined width capable of contacting with one surface of the first vertical connection part, A first vertical connection portion formed with a third connection hole and coupled with a lower portion of the first vertical connection portion through the connection portion recombination unit,
A first vertical connection part extending from the upper end of the first vertical connection part in a direction away from the first vertical connection part and extending toward the first corrugated steel plate structure toward the end, And a flow path forming portion,
The second flange portion
A second vertical coupling part formed to be symmetrical with respect to the first flange part and having a fourth coupling hole formed at a position corresponding to the second coupling hole to be coupled with a lower portion of the second vertical coupling part through the coupling part recombination unit, Wealth,
And a second vertical connection part extending from the upper end of the second vertical connection part in a direction away from the second vertical connection part and extending toward the second corrugated steel plate structure toward the end, And a flow path forming portion is provided on the curved portion connecting structure of the corrugated steel plate structure. The method according to claim 1,
The first vertical connection part and the second vertical connection part are formed to extend in the longitudinal direction of the first vertical connection part and the second vertical connection part and have a width greater than the thickness of the first vertical connection part and the second vertical connection part, And a waterproof member for preventing an occurrence of water leakage between gaps where the first vertical connection part and the second vertical connection part are in contact with each other by forming an insertion groove upwardly inserted in the lower surface so that the upper end of the second connection member can be inserted therein And a curved portion joined structure of the corrugated steel plate structure.

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