KR20120021976A - Wave type steel plate assembly - Google Patents

Abstract

PURPOSE: A corrugated steel plate assembly having a watertight structure is provided to strengthen watertight and improve assembly performance between unit corrugated steel plates with improved structure of the unit corrugated steel plate. CONSTITUTION: A corrugated steel plate assembly having a watertight structure is composed as follows. Fastening holes, forming in a flange plate of an unit corrugated steel plate(100), and fastening holes, forming in a relative flange plate of adjacent unit corrugated steel plate, are coupled with fastening bolts(b) and nuts(n). A first watertight sheet(30) is attached on a boundary surface of a relative horizontal flange of other unit corrugated steel pipe adjacently to a horizontal flange(121). A second watertight sheet(40) is interposed between a vertical flange(122) of the unit corrugated steel plate and a relative vertical flange of other unit corrugated steel plate. A third watertight sheet is interposed between the flange plate and the relative flange plate. A cutting part(123) of the horizontal flange and the vertical flange is filled with an urethane sealant(124).

Description

Wave type steel plate assembly with watertight structure

The present invention relates to a corrugated steel sheet assembly having a watertight structure.

In general, it is widely used in cylindrical structures or drainage pipes by using corrugated steel sheets with corrugated curves formed on metal plates as a way to obtain structures that are more convenient to construct and inexpensive to manufacture than concrete products.

The corrugated steel sheet is formed with fastening holes for inserting fasteners such as bolts, and a plurality of floors and valleys are repeatedly formed to form a corrugated wave. The one side portion of the corrugated steel sheet is fixed from the edge of the corrugated steel sheet. The fastening hole is formed at a distance spaced apart, and the fastening hole is formed at a position spaced less than the fastening hole formed in the floor portion.

The other side of the corrugated steel sheet, the fastening hole is formed at a position spaced a predetermined distance from the edge of the corrugated steel sheet in accordance with the position of one side fastening hole of the adjacent corrugated steel sheet for fastening with the adjacent corrugated steel sheet, The fastening hole is formed at a position spaced less than the fastening hole formed in the floor.

The corrugated steel sheet structure using the conventional corrugated steel sheet is made by continuously placing each corrugated steel sheet so as to overlap the lower side of the adjacent corrugated steel sheet. Such a superimposed structure has an advantage of excellent bending resistance performance of the corrugated steel sheet. Is expanding.

However, since the conventional corrugated steel sheet structure is arranged in a structure in which the corrugated steel sheet overlaps the lower portion of another corrugated steel sheet adjacent thereto, there is no fear of leakage between the corrugated steel sheets on one side based on the centerline of the structure. Since the corrugated steel sheet at the end side is disposed above the adjacent corrugated steel sheet between the corrugated steel sheets on the other side, there is a fear that leakage may occur between the corrugated steel sheets, which is not a problem to be used in a structure where people or vehicles can pass. there was.

In addition, when the corrugated steel sheet is joined, the adjacent corrugated steel sheets overlap each other, and the bolt is inserted through the upper side of the fastening hole formed at the overlapped portion and tightened with a nut at the bottom, or conversely, the bolt is inserted through the lower side of the fastening hole. And tighten the nut from the top. However, this requires a work on the outside and the inside of the corrugated steel sheet has a lot of work time and this causes a problem that the work is delayed, and the work to match the fastening hole of the two corrugated steel sheet is not simple, so the work is difficult.

Thus, the present invention has been proposed to solve the above problems, the main object of the present invention has a watertight structure to enhance the assembly and the number density between the unit corrugated steel through the structural improvement of the unit corrugated steel sheet To provide a corrugated steel sheet assembly.

Corrugated steel sheet assembly according to the present invention, in the corrugated steel sheet assembly 10, the unit corrugated steel sheet 100 having a corrugated portion 101 are interconnected,

The unit corrugated steel sheet 100 includes a horizontal flange 121 and a vertical flange 122 which is bent inwardly from the horizontal flange 121 at the front and rear ends of the unit corrugated steel sheet 100 and the fastening hole 122a is formed. Longitudinal coupling portion 120 is provided for connecting them in the longitudinal direction, and the left and right ends of the unit corrugated steel sheet 100, the horizontal coupling portion 130 for connecting the unit corrugated steel sheets 100 in the transverse direction Is provided, the lateral coupling portion 130 is provided at the left and right ends of the unit corrugated steel plate 100 and consists of a flange plate 131 formed with a plurality of fastening holes (131a),

These fastening holes 131a formed in the flange plate 131 of the unit corrugated steel sheet 100 and the fastening holes 131a formed in the mating flange plate 131 of another unit corrugated steel sheet 100 are adjacent to each other. The ball 131a is fastened as a fastening bolt (b) and a fastening nut (n) to be integrated with each other, and the relative vertical flange of the other corrugated steel plate 100 adjacent to the fastening hole 122a formed in the vertical flange 122 ( After matching the fastening holes 122a formed in 122, these fastening holes 122a are fastened as fastening bolts b and fastening nuts n to be integrated.

Adhering the first watertight sheet 30 to the surface of the boundary portion of the horizontal flange 121 of the unit corrugated steel sheet 100 and the relative horizontal flange 121 of the other unit corrugated steel sheet 100 adjacent thereto,

The second watertight sheet 40 is interposed between the vertical flange 122 of the unit corrugated steel sheet 100 and the relative vertical flange 122 of the other unit corrugated steel sheet 100.

The third watertight sheet 50 is interposed between the flange plate 131 of the unit corrugated steel sheet 100 and the mating flange plate 131 of the other unit corrugated steel sheet 100 adjacent thereto.

In the corrugated steel sheet assembly having a watertight structure, a chamfer 123 is formed at a boundary between the horizontal flange 121 and the vertical flange 122, and a urethane sealant 124 is filled in the chamfer 123. .

The first watertight sheet 30 of the corrugated steel sheet assembly having a watertight structure has an adhesive layer 31 formed on one surface thereof, and the second watertight sheet 40 has an adhesive layer 41 formed on both surfaces thereof.

The corrugated portion 101 of the unit corrugated steel sheet 100 of the corrugated steel sheet assembly having a watertight structure is formed in the longitudinal direction and the circumferential direction.

In the corrugated steel sheet assembly having a watertight structure, assembly protrusions 121a and 132 and assembly grooves 121b and 133 are formed on surfaces of the vertical flange 122 and the flange plate 131 of the unit corrugated steel sheet 100. The assembly grooves 121b and 133 and the assembly protrusions 121a and 132 formed in the other vertical flange 122 and the flange plate 131 are configured to be assembled.

In the corrugated steel sheet assembly having a watertight structure, elastic protrusions 41 and 51 are formed on both side surfaces of the second watertight sheet 40 and the third watertight sheet 50, respectively.

According to the present invention, the unit corrugated steel sheet can be assembled quickly and accurately according to the structural improvement of the unit corrugated steel sheet.

In addition, the leakage problem can be solved by strengthening the watertight structure at the joint portion of the unit corrugated steel sheet and other unit corrugated steel sheets assembled thereto.

1 is a perspective view of a corrugated steel sheet assembly having a unit corrugated steel sheet and a watertight structure using the unit corrugated steel sheet according to the present invention.
Figure 2 is a perspective view connecting the corrugated steel sheet assembly having a watertight structure in the longitudinal direction.
3 is a cross-sectional view taken along the line AA of FIG. 2.
4 is an enlarged cross-sectional view of the first watertight sheet.
5 is an enlarged cross-sectional view of the second watertight sheet.
6 is a cross-sectional view of the portion B of FIG. 2.
7 is an enlarged cross-sectional view of the third watertight sheet.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the corrugated steel sheet assembly having a watertight structure according to embodiments of the present invention, the present invention is not limited to the following embodiments, it is common knowledge in the art Those having the present invention may be embodied in various other forms without departing from the technical spirit of the present invention.

1 is a perspective view of a corrugated steel sheet assembly having a unit corrugated steel sheet and a watertight structure using the unit corrugated steel sheet according to the present invention, and FIG. 2 is a perspective view of longitudinally connecting a corrugated steel sheet assembly having a watertight structure.

1 and 2, the corrugated steel sheet assembly 10 according to the present invention is made by assembling arc-shaped or smooth unit corrugated steel sheets 100, for example, in a semi-circular or circular shape.

The unit corrugated steel sheet 100 may form a corrugated portion 101 in the longitudinal direction to improve shape strength. Unlike this, the unit corrugated steel sheet 100 may be simultaneously formed with a lattice corrugated portion in the longitudinal direction and the circumferential direction although not shown in the drawing.

The unit corrugated steel sheet 100 has a coupling portion 110 at four edges thereof. The coupling part 110 includes a longitudinal coupling part 120 provided at front and rear ends of the unit corrugated steel plate 100 and a circumferential coupling part 130 provided at left and right ends thereof.

The longitudinal coupling portion 120 is a horizontal flange 121 to form a horizontal plane in the longitudinal direction and the vertical flange is bent inward from the horizontal flange 121 and a plurality of fastening holes (122a) in the longitudinal direction 122 ). Alternatively, the vertical flange 122 may take a configuration that is manufactured by assembling separately from the horizontal flange 121 instead of integrally bent.

The circumferential coupling portion 130 is composed of a flange plate 131 is disposed a plurality of fastening holes (131a) in the longitudinal direction. The flange plate 131 may be formed integrally with the body of the unit corrugated steel plate 100 as in the vertical flange 122, but it is difficult to bend from the corrugated portion 101, so it is manufactured separately. Afterwards, a method of binding the upper and lower ends of the unit corrugated steel sheet 100 by a method such as welding is more preferable.

FIG. 3 is a cross-sectional view taken along the line A-A of FIG. 2, FIG. 4 is an enlarged cross-sectional view of the first watertight sheet, and FIG. 5 is an enlarged cross-sectional view of the second watertight sheet.

3 to 5, the corrugated steel sheet assembly 10 according to the present invention includes a fastening hole 131a formed in the flange plate 131 of the unit corrugated steel sheet 100 and another unit corrugated steel sheet adjacent thereto ( The fastening holes 131a formed in the mating flanges 131 of 100 are matched to each other, and the fastening holes 131a are fastened to the fastening bolts b and the fastening nuts n.

In addition, the fastening hole 122a formed in the vertical flange 122 and the fastening hole 122a formed in the relative vertical flange 122 of the other unit corrugated steel sheet 100 adjacent thereto are aligned with these fastening holes 122a. By tightening as a fastening bolt (b) and a fastening nut (n) it can extend the corrugated steel sheet assembly in the longitudinal direction.

Referring to FIG. 3, a first watertight sheet 30 is formed on a boundary surface of a horizontal flange 121 of the unit corrugated steel sheet 100 and a relative horizontal flange 121 of another unit corrugated steel sheet 100 adjacent thereto. It can be glued annularly. The first watertight sheet 30 solves the water leakage problem by sealing between the horizontal flanges 121, which are weak parts of the water leak, by the first watertight sheet 30.

Here, the first watertight sheet 30 may have an adhesive layer 31 formed on one surface thereof, as shown in FIG. 4, so that the first watertight sheet 30 may be directly adhered without using an adhesive. Alternatively, the first watertight sheet 30 may be bonded using a separate adhesive. .

Referring back to FIG. 3, the chamfer 123 may be formed at the boundary between the horizontal flange 121 and the vertical flange 122, and the urethane sealant 124 may be filled in the chamfer 123. The urethane sealant 124 is to further strengthen the water density dependent on the first watertight sheet 30 described above by sealing the gap between the horizontal flanges 121 facing each other.

Again, referring back to FIG. 3, the second watertight sheet 40 may be further interposed between the vertical flange 122 and the relative vertical flange 122. In this way, by watertightly tripled by the first and second watertight sheets 30 and 40 and the urethane sealant 124, complete leakage can be prevented and the reliability of the product can be improved.

As shown in FIG. 5, the second watertight sheet 40 may have an adhesive layer 41 formed on both sides thereof so that the second watertight sheet 40 may be directly adhered without using an adhesive. Alternatively, the second watertight sheet 40 may be bonded using a separate adhesive. have.

In addition, the second watertight sheet 40 may have elastic protrusions 42 formed on both surfaces thereof, as shown in the drawing. The elastic protrusions 42 may be pressed between the vertical flanges 122 to strengthen the grounding force with the two vertical flanges 122 to obtain a stronger watertight force.

Referring to FIG. 6, a third watertight sheet 50 may be interposed between the flange plate 131 of the unit corrugated steel sheet 100 and the mating flange plate 131 of another unit corrugated steel sheet 100 adjacent thereto. Can be.

In this case, the third watertight sheet 50 may have an adhesive layer 51 formed on both sides thereof so that the third watertight sheet 50 may be directly adhered without using an adhesive. Alternatively, the third watertight sheet 50 may be bonded using a separate adhesive. You may.

In addition, the third watertight sheet 50 may have elastic protrusions 52 formed on both surfaces thereof, as shown in the drawing. The elastic protrusions 52 may be pressed between the two flange plates 131 to strengthen the grounding force with the two flange plates 131 to obtain a stronger watertight force.

Referring to FIG. 3 again, an assembly protrusion 122b and / or an assembly groove 122c may be formed on the surface of the vertical flange 122. The assembling protrusion 122b of the vertical flange 122 may be combined with the assembling groove 122c of the other vertical flange 122, and the assembling groove 122c of the vertical flange 122 is the other vertical flange 122. It can be combined with the assembly protrusion 122b of the. Therefore, when the unit corrugated steel plate 100 is connected in the longitudinal direction, the assembly position can be easily set by the combination of the assembling protrusion and the assembling groove, thereby enabling fast forward assembly.

In addition, referring again to FIG. 5, an assembly protrusion 132 and / or an assembly groove 133 may be formed on the surface of the flange plate 131. The assembling protrusion 132 of the flange plate 131 may be combined with the assembling groove 133 of the other flange plate 131, and the assembling groove 133 of the flange plate 131 is the other flange plate 131. It can be combined with the assembly protrusion 132 of. Therefore, when the unit corrugated steel plate 100 is connected in the circumferential direction, the assembly position can be easily set by the combination of the assembling protrusion and the assembling groove, thereby enabling fast forward assembly.

Although the detailed description of the present invention described above has been described with reference to the embodiments of the present invention, those skilled in the art or those skilled in the art will appreciate the spirit and technology of the present invention described in the claims. It will be understood that various modifications and variations of the present invention are possible without departing from the scope thereof.

10: corrugated steel sheet assembly 30: first watertight sheet
31: adhesive layer 40: second watertight sheet
41: adhesive layer 42: elastic projection
50: third watertight sheet 51: adhesive layer
52: elastic projection 100: unit corrugated steel sheet
110: coupling portion 120: longitudinal coupling portion
121: horizontal flange 122: vertical flange
122b: Assembly protrusion 122c: Assembly groove
123: chamfer 130: transverse coupling
131: flange plate 132: assembly protrusion
133: Assembly groove

Claims (6)

In the corrugated steel sheet assembly 10 in which the unit corrugated steel sheets 100 having the corrugated portion 101 are interconnected,
The unit corrugated steel sheet 100 includes a horizontal flange 121 and a vertical flange 122 which is bent inwardly from the horizontal flange 121 at the front and rear ends of the unit corrugated steel sheet 100 and the fastening hole 122a is formed. Longitudinal coupling portion 120 is provided for connecting them in the longitudinal direction, and the left and right ends of the unit corrugated steel sheet 100, the horizontal coupling portion 130 for connecting the unit corrugated steel sheets 100 in the transverse direction Is provided, the lateral coupling portion 130 is provided at the left and right ends of the unit corrugated steel plate 100 and consists of a flange plate 131 formed with a plurality of fastening holes (131a),
These fastening holes 131a formed in the flange plate 131 of the unit corrugated steel sheet 100 and the fastening holes 131a formed in the mating flange plate 131 of another unit corrugated steel sheet 100 are adjacent to each other. The ball 131a is fastened as a fastening bolt (b) and a fastening nut (n) to be integrated with each other, and the relative vertical flange of the other corrugated steel plate 100 adjacent to the fastening hole 122a formed in the vertical flange 122 ( After matching the fastening holes 122a formed in 122, these fastening holes 122a are fastened as fastening bolts b and fastening nuts n to be integrated.
Adhering the first watertight sheet 30 to the surface of the boundary portion of the horizontal flange 121 of the unit corrugated steel sheet 100 and the relative horizontal flange 121 of the other unit corrugated steel sheet 100 adjacent thereto,
The second watertight sheet 40 is interposed between the vertical flange 122 of the unit corrugated steel sheet 100 and the relative vertical flange 122 of the other unit corrugated steel sheet 100.
Watertight structure characterized in that the third watertight sheet 50 is interposed between the flange plate 131 of the unit corrugated steel sheet 100 and the mating flange plate 131 of the other unit corrugated steel sheet 100 adjacent thereto. Corrugated steel sheet assembly having a. The method of claim 1,
The chamfered portion 123 is formed at the boundary between the horizontal flange 121 and the vertical flange 122, and the corrugated steel sheet having a watertight structure, characterized in that the urethane sealant 124 is filled in the chamfered portion 123 assembly. The method of claim 1,
The first watertight sheet 30 has an adhesive layer 31 formed on one surface thereof, and the second watertight sheet 40 has a watertight structure having a watertight structure, wherein an adhesive layer 41 is formed on both surfaces thereof. The method of claim 1,
Corrugated steel sheet assembly having a watertight structure, characterized in that the corrugated portion 101 of the unit corrugated steel sheet 100 is formed in the longitudinal direction and the circumferential direction. The method of claim 1,
On the surfaces of the vertical flange 122 and the flange plate 131 of the unit corrugated steel sheet 100, assembly protrusions 121a and 132 and assembly grooves 121b and 133 are formed to form other vertical flanges 122 and flange plates. Corrugated steel sheet assembly having a watertight structure, characterized in that configured to be assembled with the assembly groove (121b, 133) and the assembly protrusion (121a, 132) formed in the (131). The method of claim 1,
Elastic protrusions 42 are formed on both sides of the second watertight sheet 40, and elastic protrusions 52 are formed on both sides of the third watertight sheet 50. .

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