KR20120105787A - Corrugated steel pipe with double layer and apparatus for manufacturing of the same - Google Patents

Abstract

PURPOSE: Double corrugated steel pipes and a manufacturing device for the same are provided to stably position an upper plate on a lower plate. CONSTITUTION: Both edges of double corrugated steel pipes(100) are connected each other. The double corrugated steel pipes comprise upper and lower plates(120,130). The lower plate comprises a plurality of corrugated parts. Both edges of the upper plate are respectively connected to the both edges of the lower plate. The upper plate comprises one or more anti-movement units(131) which encloses a part of the corrugated parts. One edge of the upper plate is partially overlapped in between bent parts of one edge of the lower plate.

Description

Corrugated Steel Pipe with double layer and Apparatus for manufacturing of the same

The present invention relates to a double corrugated steel pipe, and more particularly, to a double corrugated steel pipe used as a living sewage pipe, a road drainage pipe, and the like, having an inner plate laminated on an outer corrugated plate, and an apparatus for manufacturing the same.

Double corrugated steel pipes are mainly used for cylindrical structures and drainage pipes in rivers. Double wave steel pipe is to increase the shape strength by forming a wave shape bend on the metal plate. Such double wave steel pipes have advantages in that they are easy to use and have lower manufacturing costs than concrete products.

Conventional double corrugated steel pipe has a problem that when the depth of the bone deepens, the water passing capacity of the internal by the bone falls. In addition, the conventional double corrugated steel pipe has a plurality of corrugated bones are formed in the outer tube in order to withstand the external pressure, the inner tube forms a double corrugated steel pipe when the number and diameter of corrugated bones that can withstand the external pressure increases As the width of the lock seam molded part is increased, it may be warped or sag.

In order to solve this deflection, the number of bones is reduced, which is not suitable for producing large tube types due to the problem of the equipment itself, which is not connected with less tube angles. There is a problem that the requirements increase.

In addition, during the manufacture of the double corrugated steel pipe, in the process of joining the inner plate and the outer wave plate, slip is generated in the inner plate and the outer wave plate so that the coupling is uniformly formed in the preformed portion forming the lock core of the inner plate and the outer wave plate. There is a problem that the defect is not generated because the coupling is not precisely made to the lock core to form the tubular body at the time of piping.

It is an object of the present invention to provide a double corrugated steel pipe having an improved structure to prevent slippage from occurring in the upper and lower plates in the process of combining the upper and lower plates.

Double corrugated steel pipe according to the present invention for achieving the above object forms a structure in which both edges are connected to each other by spirally wound double steel plate, the double steel plate includes a plurality of corrugated portions formed at least a portion bent upwards A lower plate and both edges are respectively coupled to both edges of the lower plate, and includes an upper plate including at least one movement preventing portion formed to surround at least a portion of the corrugated portion of the lower plate.

Double wave steel pipe according to the present invention is formed with a movement preventing portion on the top plate. This movement prevention portion is lower than the corrugated portion, it can prevent the sag without affecting the water-permeability, and can be minimized by improving the external pressure strength when the double corrugated steel pipe is made. In addition, since the double wave steel pipe according to the present invention, since the movement preventing portion of the upper plate surrounds the corrugated portion of the lower plate, in the process of connecting both edges of the double steel pipe to each other, the lower plate and the upper plate can be stably positioned without slipping against each other, Poor manufacturing of double corrugated steel pipe can be minimized.

1 is a perspective view of a double corrugated steel pipe according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a double steel sheet forming a double corrugated steel pipe of FIG.
Figure 3 is a cross-sectional view showing the connection of the two edges in the double corrugated steel pipe of FIG.
Figure 4 is a block diagram showing an apparatus for manufacturing a double corrugated steel pipe shown in FIG.
5 is a view showing an extract of the upper and lower plate coupling unit in FIG.
Figure 6 is a view for explaining the process of forming the movement preventing portion during the manufacture of the double corrugated steel pipe of Figure 1 by the apparatus of FIG.
7 is a view for explaining a process of forming a movement preventing part of another example by the apparatus of FIG.
8 is a perspective view illustrating a double wave steel pipe formed by the process of FIG.

The present invention will now be described in detail with reference to the accompanying drawings. The same reference numerals are used for the same components, and repeated descriptions and detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted. Embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

1 is a perspective view of a double wave steel pipe according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a double steel plate forming the double wave steel pipe of FIG. And, Figure 3 is a cross-sectional view showing the unfolded connecting portion of both edges in the double corrugated steel pipe of FIG.

As shown in FIG. 1, the double corrugated steel pipe 100 according to the exemplary embodiment of the present invention has a structure in which a double steel plate 110 is wound in a spiral and both edges are connected to each other. As shown in FIG. 2, the double steel plate 110 includes a lower plate 120 and an upper plate 130.

The lower plate 120 includes a plurality of corrugations 121 formed at least partially curved upward. The corrugations 121 formed on the lower plate 120 may be bent at regular intervals, and thus the shape of the lower plate 120 may be formed in a wave shape.

The upper plate 130 is stacked on the upper surface of the lower plate 120. The upper plate 130 has both edges coupled to both edges of the lower plate 120, and includes at least one movement preventing part 131 formed to cover at least a portion of the corrugated portion 121 of the lower plate 120. .

Method for producing a double corrugated steel pipe 100 of the present invention may be as follows. The disc is coated, and the bottom plate 120 is formed by forming a bone on the disc. Next, the upper plate 130 and the lower plate 120 are in close contact with each other, and then bent both edges to combine the upper plate 130 and the lower plate 120. Then, while winding the double steel plate 110 coupled with the upper plate 130 and the lower plate 120 in a spiral manner, one edge of the double steel plate 110 is connected with the other edge to form the double corrugated steel pipe 100 shown in FIG. 1. Can be prepared.

Here, the double waveform steel tube 100 of the present invention in a state in which the movement preventing portion 131 is in close contact with each other without slipping on the corrugated portion 121 in a step of bringing the upper plate 130 and the lower plate 120 into close contact with each other. Can be combined while maintaining.

The double corrugated steel pipe 100 having the above structure has a movement preventing part 131 formed on the upper plate 130. The movement preventing portion 131 is a valley lower than the corrugation portion 121, it can prevent the sag without affecting the water-carrying capacity, the double corrugated steel pipe 100 can minimize the deformation by improving the external pressure strength. . In addition, the double wave steel pipe 100 of the present invention, because the movement preventing portion 131 of the upper plate 130 surrounds the corrugated portion 121 of the lower plate 120, connecting both edges of the double steel plate 110 to each other Since the lower plate 120 and the upper plate 130 can be stably positioned without slipping with respect to each other in the process, the defect of the double corrugated steel pipe 100 can be minimized to improve productivity.

Meanwhile, referring to FIG. 3, one edge of the upper plate 130 in the double steel plate 110 may be formed so that only a part of the edge is interposed between the bent portions of one edge of the lower plate 120.

In more detail, both edge portions of the double steel plate 110 may form the first double steel plate 210 and the second double steel plate 220 which are connected to overlap each other. The first dual steel plate part 210 includes a first lower plate part 211 and a first upper plate part 212. The first lower plate portion 211 includes a receiving portion 211a formed to be bent once at an outer edge thereof to have a space therebetween. The first upper plate portion 212 is formed such that only a portion of the outer edge is interposed in a space formed by the accommodation portion 211a of the first lower plate portion 211.

The second double steel plate part 220 includes a second lower plate part 221 and a second upper plate part 222. The second lower plate part 221 includes a connection part 221a formed to surround both sides of the receiving part 211a of the first lower plate part 211. The second upper plate portion 222 is connected to an adjacent portion of the receiving portion 211a of the first lower plate portion 211 and the second lower plate portion 221 while the outer edge is in contact with the outer edge of the first upper plate portion 212. Only a part is interposed between one surface of 221a.

Each of the outer edges of the first upper plate portion 212 and the second upper plate portion 222 of the first double steel plate portion 210 and the second double steel plate portion 220 having the structure as described above is formed of the first lower plate portion 211. Since the bent portion of the accommodating portion 211a is not interposed, excessive stress may not be concentrated on the bent portion of the accommodating portion 211a of the first lower plate portion 211. Accordingly, in the state where the first double steel plate 210 and the second double steel plate 220 are coupled to each other, a crack may be prevented from being bent at the bent portion of the receiving portion 211a of the first lower plate 211. Can be. That is, when the space length formed between the portion adjacent to the receiving portion 211a of the first lower plate portion 211 and one surface of the connecting portion 221a of the second lower plate portion 221 is I, the first upper plate portion 212 and Each outer edge of the second upper plate portion 222 may be interposed in the space by a length equal to the length I minus the length X.

Each outer edge of the first upper plate portion 212 and the second upper plate portion 222 is disposed between a portion adjacent to the receiving portion 211a of the first lower plate portion 211 and one surface of the connection portion 221a of the second lower plate portion 221. It is preferred that the intercalation in 40% to 80%.

Each outer edge of the first upper plate portion 212 and the second upper plate portion 222 is disposed between a portion adjacent to the receiving portion 211a of the first lower plate portion 211 and one surface of the connection portion 221a of the second lower plate portion 221. When interposed below 40%, the coupling force between the first double steel plate 210 and the second double steel plate 220 may be weakened.

On the contrary, the outer edges of the first upper plate portion 212 and the second upper plate portion 222 are adjacent to the receiving portion 211a of the first lower plate portion 211 and the connection portion 221a of the second lower plate portion 221. When more than 80% is interposed between one surface of the first upper plate portion 212 and the second upper plate portion 222, each outer edge is interposed to the bent portion of the receiving portion 211a of the first lower plate portion 211 The stress may be generated in the bent portion of the accommodation portion 211a of the lower plate portion 211.

On the other hand, referring to Figure 4, the dual wave steel pipe manufacturing apparatus 300 for manufacturing a double wave steel pipe 100 having the above-described structure is the supply unit 310, the coating unit 320, the bone forming unit 330 ), The bending unit 340, and the steel pipe forming unit 350 may be included.

The supply unit 310 is wound around the disc for producing a double corrugated steel pipe. The supply unit 310 is divided into two, one unit for supplying the original plate corresponding to the lower plate 120 to be formed corrugated portion, and the other unit for supplying the original plate corresponding to the upper plate 130 Can be.

The wound disc of the supply unit 310 is supplied to the coating unit 320, the coating unit 320 coats the polyethylene film on the surface of the disc. On the other hand, the coating unit 320 is optional, it may be omitted.

The bone forming unit 330 forms a corrugated portion 121 on the lower plate 120. The bending unit 340 bends both edges of the upper plate 130 and the lower plate 120 in a state in which the upper plate 130 and the lower plate 120 are in close contact with each other, as shown in FIG. 3. Therefore, the lock core may be formed at the coupling portion of both edges of the upper plate 130 and the lower plate 120 by the bending unit 340. The steel pipe forming unit 350 is manufactured by winding the double steel plate 110 in a spiral shape.

The dual wave steel pipe manufacturing apparatus 300 may further include a top and bottom plate coupling unit 370. As shown in FIGS. 4 and 5, the upper and lower plate coupling units 370 may include a pair of rolls 371 through which the upper plate 130 and the lower plate 120 are inserted. The upper and lower plate coupling units 370 coincide with the upper plate 130 and the lower plate 120 before the upper plate 130 and the lower plate 120 enter the bending unit 340, and prevent slipping and twisting.

In addition, the dual-waveform steel pipe manufacturing apparatus 300 further includes a pressing unit 360 as shown in FIG. The pressurizing unit 360 includes a roller 361 having a rounded circumferential surface such that the movement preventing part 131 is formed to be in close contact with the corrugation part 121 in a state where the upper plate 130 and the lower plate 120 are in close contact with each other. . The pressing unit 360 may be arranged side by side in the bending unit 340. When the bending unit 340 bends both ends in a state in which the upper plate 130 and the lower plate 120 are in close contact, the pressing unit 360 allows the movement preventing part 131 to be formed.

The roller of the pressing unit 360 may be made of one or more numbers in positions corresponding to the corrugation portion 121. For example, five corrugations 121 are formed on the lower plate 120 of the double steel plate 110, and the roller 361 has a circumferential surface rounded only at a portion corresponding to one corrugation portion 121 positioned at the center thereof. Can be arranged. In this case, as shown in FIG. 1, it may be applied to allow one movement preventing part 131 to be formed in the dual wave steel pipe 100 having a relatively small diameter.

The roller 361, which has a rounded circumferential surface in the pressing unit 360, is detachably coupled to the body of the pressing unit 360, and can be easily replaced with a roller 362 having a circumferential surface formed in a plane. That is, according to the design, the position where the movement preventing part 131 is formed on the upper plate 130 is easily formed by selectively using the roller 361 having the circumferential surface rounded and the roller 362 having the circumferential surface flat. can do.

As another example, as shown in FIG. 7, it is also possible to have all the rollers 361 formed to have rounded circumferential surfaces at one-to-one correspondence with the five corrugations 121. In this case, as shown in FIG. 8, it may be applied to form five movement preventing portions 131 in a relatively large double corrugated steel pipe 100 ′. Since the number of the movement preventing parts 131 can be appropriately set according to the diameter of the double corrugated steel pipes 100 and 100 ', it is not necessarily limited to the examples.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: double wave steel pipe 110: double steel sheet
120: lower plate 121: corrugated portion
130: top plate 131: movement preventing part
210: first double steel plate portion 211: first lower plate portion
211a: accommodating part 212: first upper plate part
220: second double steel plate portion 221: second lower plate portion
221a: connecting portion 222: second upper plate portion
300: dual wave steel pipe manufacturing apparatus
310: supply unit 320: coating unit
330: bone formation unit 340: bending unit
350: steel pipe forming unit 360: pressure unit

Claims (6)

In a double corrugated steel pipe structure in which a double steel sheet is spirally wound and both edges are connected to each other,
The double steel sheet is:
A lower plate including a plurality of corrugations formed at least partially curved upward; And
An upper plate coupled to both edges of the lower plate, the upper plate including at least one movement preventing part formed to surround at least a portion of the corrugated portion of the lower plate;
Double wave steel pipe comprising a. The method of claim 1,
One edge of the upper plate is a double corrugated steel pipe, characterized in that overlapping in a state where only a part interposed between the bent portion of one edge of the lower plate. The method of claim 2,
Both edge portions of the double steel sheet form a first double steel plate portion and a second double steel plate portion connected to overlap each other,
The first double steel plate portion:
A first lower plate portion including a receiving portion having an outer edge bent once to form a spaced space; and
Only a portion of the outer edge includes a first upper plate portion formed to be interposed in the space formed by the receiving portion of the first lower plate portion,
The second double steel plate portion:
A second lower plate part including a connection part whose outer edge surrounds both sides of the accommodation part of the first lower plate part, and
And a second upper plate portion formed such that only a portion is interposed between an adjacent portion of the receiving portion of the first lower plate portion and one side of the connection portion of the second lower plate portion while the outer edge is in contact with the outer edge of the first upper plate portion. Double corrugated steel pipe. The method of claim 3,
Each outer edge of the first upper plate portion and the second upper plate portion is a double corrugated steel pipe, characterized in that between 40% to 80% interposed between the portion adjacent to the receiving portion of the first lower plate portion and the connecting portion of the second lower plate portion. In the apparatus for manufacturing a double wave steel pipe having a structure according to any one of claims 1 to 4,
At least one pressurizing unit including a roller having a circumferential surface rounded such that the movement preventing part is formed to be in close contact with the corrugated part in a state in which the upper plate and the lower plate are in close contact with each other;
Double wave steel pipe manufacturing apparatus characterized in that it further comprises. The method of claim 5,
The pressure unit,
Double corrugated steel pipe manufacturing apparatus, characterized in that the roller is made of one or more numbers in the position corresponding to the corrugated portion.

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