KR101202375B1 - Prefabricate reservoir water using wave type steel plate - Google Patents

Abstract

A prefabricated rainwater storage tank using a corrugated plate is disclosed.
Prefabricated rainwater storage tank using a corrugated plate, the arc-shaped unit corrugated steel plate having a corrugated portion to form a cylindrical portion of the rainwater storage tank by the cylindrical form, the unit corrugated steel sheet is inward from the horizontal flange and the horizontal flange in the front and rear ends thereof. A longitudinal coupling portion formed of a vertical flange bent and formed with a fastening hole is formed, and a circumferential coupling portion is provided at left and right ends of the unit corrugated steel plate, and the circumferential coupling portion is coupled to the left and right ends of the unit corrugated steel plate. And a fastening hole formed in the flange plate of the unit corrugated steel sheet and the fastening hole formed in the mating flange plate of the other unit corrugated steel sheet adjacent to each other, and then fastening these fastening holes as fastening bolts and fastening nuts. To form a cylindrical portion of the rainwater storage tank, and adjacent to the fastening hole formed in the vertical flange. Is matched with the fastening holes formed in the relative vertical flange of the other unit corrugated steel plate and then fastening these fastening holes as fastening bolts and fastening nuts to extend the tubular portion of the rainwater storage tank in the longitudinal direction, and both openings of the tubular portion are cross-sectional structures of the tubular portion. Fasten the same sealing panel as the vertical flange of the outermost unit corrugated steel plate and fastening bolts and fastening nuts, wherein the first watertight surface is formed on the boundary surface of the horizontal flange of the unit corrugated steel plate and the relative horizontal flange of the other unit corrugated steel plate adjacent thereto. A sheet is bonded, a chamfer is formed at the boundary between the horizontal flange and the vertical flange, and a urethane sealant is filled in the chamfered portion, and the flange of the flange plate of the unit corrugated steel plate and the other flange of the unit corrugated steel adjacent thereto The second watertight sheet is interposed between the plates, and the number of outermost unit corrugated steel sheets of the cylindrical portion Would have been the third water-tight sheet is interposed between the flange and the sealing panel.

Description

Prefabricate reservoir water using wave type steel plate

The present invention relates to a prefabricated rainwater storage tank using a corrugated steel sheet.

Rainwater storage tanks are used to collect rainwater in underground areas, such as underground parking lots and underground parks, and then use it as landscaping or car wash water to recycle rainwater.

Such rainwater storage tank is designed to be able to withstand high water pressure because it stores a large amount of rainwater, so the strength design is important, and the watertight problem at the joint is one of the important design requirements.

In terms of strength design, considering that the internal pressure increases proportionally with the capacity of the rainwater storage tank, a supplementary supplementary structure is required to thicken the wall of the rainwater storage tank or to withstand the internal pressure. Increasing the thickness of the wall increases the weight of the rainwater storage tank, which leads to inconvenience in handling and installation, as well as an increase in cost. Likewise, in the case of having a supplementary complementary structure, it is a cause of installation trouble and cost.

In terms of watertight design, a typical rainwater storage tank is generally manufactured by repeatedly connecting arc- or flat panel panels by welding. In the case of welding, if a precision welding is not performed, a gap is likely to occur and leaks are likely to occur. Since the work of welding the rainwater storage tank into a curved shape is not simple, it takes a long time, and the work must be performed by a skilled person, resulting in poor workability as well as supply and demand.

In view of this point, a wall assembly for a storage tank of Korean Utility Model Registration No. 20-0319986 (Document 1) has been proposed.

The conventional storage tank overlaps the ends of the arc-shaped unit corrugated steel sheet, and the overlapping portions are fastened by bolts and nuts to be continuously fastened or welded to produce a storage tank.

The unit corrugated steel sheet is formed by forming a smooth steel sheet into a wave type to reinforce structural strength. The unit corrugated steel sheet is not only thicker than previous smooth steel sheets, but also can be reduced in strength. Since the valleys have a repeating shape, when the other unit corrugated steel is overlapped, the valley of the other unit corrugated steel overlaps the floor of the other unit corrugated steel, and the valley of the unit corrugated steel overlaps the floor of the other unit corrugated steel. This has the advantage of being easy to assemble.

However, in the conventional storage tank, the packing pad is interposed between the overlapping portions to prevent leakage when the unit corrugated steel sheet is connected. However, when the packing pad is not matched with the waveform, a gap occurs when the packing pad does not match the waveform. There is a high possibility of occurrence.

In addition, when the packing pad intervenes between the unit corrugated steel sheets, it is difficult to accurately match the fastening holes of the two unit corrugated steel sheets to be fastened, and thus, assembling is difficult and the work is delayed.

In addition, when fastening the unit corrugated steel sheets, the adjacent unit corrugated steel sheets overlap each other, and the bolts are inserted from the inside of the fastening holes formed in the overlapped portions and tightened with nuts from the outside, or conversely, the bolts are fastened from the outside of the fastening holes. It must be inserted and tightened with a nut from the inside. However, this is because the work must be performed on the outside and the inside of the unit corrugated steel sheet has a lot of work maneuver and there was a problem that the work is delayed.

[Document 1] Domestic Utility Model Registration No. 20-0319986

Accordingly, the present invention has been proposed to solve the above problems, the main object of the present invention is a prefabricated rainwater storage tank using a corrugated steel sheet that can be assembled quickly and accurately through the structural improvement of the unit corrugated steel sheet In providing.

Another object of the present invention is to provide a prefabricated rainwater storage tank using a corrugated steel sheet which can improve the water density between unit corrugated steel sheets and solve the leakage problem.

Prefabricated rainwater storage tank using a corrugated steel sheet according to the present invention, the arc-shaped unit corrugated steel plate 100 having a corrugated portion 101 by assembling the tubular portion 10 of the rainwater storage tank,
The unit corrugated steel sheet 100 is a longitudinal coupling portion consisting of a horizontal flange 121 and the vertical flange 122 is bent inward from the horizontal flange 121 at the front and rear ends thereof and a fastening hole 122a is formed. 120 is formed, and the circumferential coupling portion 130 is provided at the left and right ends of the unit corrugated steel sheet 100, and the circumferential coupling portion 130 is disposed at the left and right ends of the unit corrugated steel sheet 100. Combining and consisting 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 form the tubular portion 10 of the rainwater storage tank,
The fastening bolts 122a formed in the vertical flange 122 and the fastening holes 122a formed in the relative vertical flanges 122 of the other unit corrugated steel sheets 100 adjacent to each other are fastened to the fastening bolts 122a. (b) and the fastening nut (n) to extend the cylindrical portion 10 of the rainwater storage tank in the longitudinal direction,
Both openings 10a of the tubular portion 10 have the same sealing panel 20 as the cross-sectional structure of the tubular portion 10 as the vertical flange, fastening bolts b and fastening nuts n of the outermost unit corrugated steel sheet. Tighten it,
The first watertight sheet 30 is adhered to the boundary surface 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,
Chamfering portion 123 is formed at the boundary between the horizontal flange 121 and the vertical flange 122, the urethane sealant 124 is filled in the chamfering portion 123,
The second watertight sheet 40 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,
A third watertight sheet 50 is interposed between the vertical flange 122 of the outermost unit corrugated steel sheet of the tubular portion 10 and the sealing panel 20.
An assembly protrusion 121a is formed at one side of the vertical flange 122 provided at the front and rear ends of the unit corrugated steel sheet 100, and an assembly groove 121b is formed at the other side of the vertical flange 122. The assembling protrusion 121a of the vertical flange 122 of the one side is fitted into the assembly groove 133 of the other vertical flange 122, and is coupled.
An assembly protrusion 132 is formed on one side of the flange plate 131 provided at the left and right ends of the unit corrugated steel plate 100, and an assembly groove 133 is formed on the other side flange plate 131 corresponding thereto. The assembling protrusion 132 of the one flange plate 131 is characterized in that the coupling groove 133 of the other flange plate 131 is fitted.

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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 water leakage problem can be solved by strengthening the watertight structure at the joint portion of the unit corrugated steel sheet and the other unit corrugated steel sheet.

In addition, it is possible to extend the life of the unit corrugated steel sheet by surface treatment or forming a coating layer on the inner surface of the unit corrugated steel sheet, further contributes to the life of the rainwater storage tank.

1 is an installation state of the prefabricated rainwater storage tank using a corrugated steel sheet according to the present invention.
2 is an exploded perspective view of a prefabricated rainwater storage tank using a corrugated steel sheet according to the present invention.
Figure 3 is a combined perspective view of the prefabricated rainwater storage tank using a corrugated steel sheet according to the present invention.
4 is a cross-sectional view taken along the line AA of FIG.
5 is an enlarged cross-sectional view of portion B of FIG. 3.
6 is a cross-sectional view taken along line CC of FIG. 3.

Hereinafter, the prefabricated rainwater storage tank using the corrugated plate according to the embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited to the following embodiments, and is commonly known 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 an installation state diagram of a prefabricated rainwater storage tank using a corrugated steel sheet according to the present invention, Figure 2 is an exploded perspective view of a prefabricated rainwater storage tank using a corrugated steel sheet according to the present invention.

1 and 2, the prefabricated rainwater storage tank using the corrugated steel sheet according to the present invention (hereinafter abbreviated as "rainwater storage tank") is to assemble the arc-shaped unit corrugated steel sheet 100 in a cylindrical shape, in particular cylindrical It includes a cylindrical portion 10 to be made and a sealing panel 20 for sealing both openings 10a of the cylindrical portion 10.

The unit corrugated steel sheet 100 forming the cylindrical portion 10 may form the corrugated portion 101 in the longitudinal direction to improve the 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 formed at the front and rear ends of the unit corrugated steel plate 100 and a circumferential coupling part 130 coupled to the left and right ends.

The longitudinal coupling part 120 includes a horizontal flange 121 forming a horizontal plane in the longitudinal direction and a vertical flange 122 bent inward from the horizontal flange 121 and having a plurality of fastening holes 122a. do. 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.

The unit corrugated steel sheet 100 is preferably formed with an anti-corrosion coating layer 102 on its inner surface to prevent corrosion (see FIG. 3). The unit corrugated steel sheet 100 is subjected to the (laminating) coating process by the anti-corrosion coating layer 102 as described above in consideration of the possibility of rust or corrosion when directly contacted with water stored in the rainwater storage tank for a long time. By doing so, the life of the unit corrugated steel sheet and the rainwater storage tank can be extended, and the hygiene can be improved.

3 is a perspective view of the assembled rainwater storage tank using a corrugated steel sheet according to the present invention, Figure 4 is a cross-sectional view taken along the line A-A of Figure 3, Figure 5 is an enlarged cross-sectional view B portion of FIG.

3 to 5, the rainwater storage tank according to the present invention is a relative of the fastening hole 131a formed in the flange plate 131 of the unit corrugated steel sheet 100 and another unit corrugated steel sheet 100 adjacent thereto. By joining the fastening holes 131a formed in the flange plate 131 and fastening these fastening holes 131a as the fastening bolts b and the fastening nuts n, the above-mentioned cylindrical portion 10 is formed.

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 fastening to the fastening bolt (b) and the fastening nut (n) it is possible to extend the cylindrical portion 10 in the longitudinal direction.

Referring to FIG. 4, the first watertight sheet 30 is formed on the boundary surface 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. 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 formed on one surface thereof 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 to FIG. 4, 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.

In addition, referring to FIG. 4, the second watertight sheet 40 may be further interposed between the vertical flange 122 and the relative vertical flange 122. In this way, the watertightness is tripled by the first and second watertight sheets 30 and 40 and the urethane sealant 124 to completely prevent leakage.

Referring to FIG. 5, a second watertight sheet 40 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. have.

Here, although not shown in detail, the third watertight sheet 50 may have elastic protrusions formed on a surface thereof to improve water density. As the elastic protrusions are pressed between the two flange plates 131, a stronger watertight force can be obtained by improving the traction force between the two flange plates.

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.

6 is a cross-sectional view taken along the line C-C of FIG.

Referring to FIG. 6, a ring-shaped fourth watertight sheet 60 for watertightness is formed between the vertical flange 122 of the unit corrugated steel sheet 100 positioned at the outermost portion of the cylindrical portion 10 and the sealing panel 20. ) Is interposed, these sealing panels 20, the vertical flange 122 and the fourth watertight sheet 60 is integrally coupled by a fastening bolt (b) and a fastening nut (n).

Since the vertical flange 122 has a flat structure, the watertight force can be obtained while being closely interviewed with the fourth watertight sheet 60 having a smooth structure.

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: cylinder part 20: suture panel
30: first watertight packing 40: second watertight packing
50: third watertight packing 60: fourth watertight packing
100: unit corrugated steel 110: coupling portion
120: longitudinal coupling portion 121: horizontal flange
122: vertical flange 123: chamfer
124: urethane sealant 130: circumferential coupling
131: flange plate

Claims (7)

The arc-shaped unit corrugated steel sheets 100 having the corrugated portion 101 are assembled in a cylindrical form to form a cylindrical portion 10 of the rainwater storage tank,
The unit corrugated steel sheet 100 is a longitudinal coupling portion consisting of a horizontal flange 121 and the vertical flange 122 is bent inward from the horizontal flange 121 at the front and rear ends thereof and a fastening hole 122a is formed. 120 is formed, and the circumferential coupling portion 130 is provided at the left and right ends of the unit corrugated steel sheet 100, and the circumferential coupling portion 130 is disposed at the left and right ends of the unit corrugated steel sheet 100. Combining and consisting 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 form the tubular portion 10 of the rainwater storage tank,
The fastening bolts 122a formed in the vertical flange 122 and the fastening holes 122a formed in the relative vertical flanges 122 of the other unit corrugated steel sheets 100 adjacent to each other are fastened to the fastening bolts 122a. (b) and the fastening nut (n) to extend the cylindrical portion 10 of the rainwater storage tank in the longitudinal direction,
Both openings 10a of the tubular portion 10 have the same sealing panel 20 as the cross-sectional structure of the tubular portion 10 as the vertical flange, fastening bolts b and fastening nuts n of the outermost unit corrugated steel sheet. Tighten it,
The first watertight sheet 30 is adhered to the boundary surface 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,
Chamfering portion 123 is formed at the boundary between the horizontal flange 121 and the vertical flange 122, the urethane sealant 124 is filled in the chamfering portion 123,
The second watertight sheet 40 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,
Prefabricated rainwater storage tank using a corrugated steel sheet, characterized in that the third watertight sheet (50) is interposed between the vertical flange (122) of the outermost unit corrugated steel sheet of the tubular portion (10) and the sealing panel (20).
delete delete delete delete The method of claim 1,
An assembly protrusion 122b is formed at one side of the vertical flange 122 provided at the front and rear ends of the unit corrugated steel plate 100, and an assembly groove 122c is formed at the other side of the vertical flange 122. Prefabricated rainwater storage tank, characterized in that the assembling projections (122b) of the one side vertical flange 122 is fitted into the assembling groove (122c) of the other vertical flange (122).
7. The method according to claim 1 or 6,
An assembly protrusion 132 is formed on one side of the flange plate 131 provided at the left and right ends of the unit corrugated steel plate 100, and an assembly groove 133 is formed on the other side flange plate 131 corresponding thereto. Prefabricated rainwater storage tank, characterized in that the assembly protrusion 132 of the one flange plate 131 is fitted into the assembly groove 133 of the other flange plate 131.

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