KR102032202B1 - Coated corrugated steel pipe with a film that is easy to repair the damaged coating layer - Google Patents

Abstract

The present invention relates to a coating film composed of various organic compounds such as polypropylene, polyolefin, and the like and a corrugated steel pipe with the film. More specifically, the present invention relates to a corrugated steel pipe coated with a corrosion-proof coating film, the surface of which has an organic compound-based repair agent and a molecular structure with excellent adhesion to pain or the like, and thus which is strong against external impact and has excellent adhesion. In addition, the surface of the film can be repaired to prevent peeling off with the organic compound-based repair agent and paint if the surface of the film is peeled off, broken, or scratched, thereby increasing the reliability of repair work. To this end, the corrugated steel pipe coated with a coating film comprises a corrugated steel pipe having corrugated inner and outer surfaces and a multilayer film formed on the inner and outer surfaces of the corrugated steel pipe. The multilayer film includes: a steel-plate adhesive layer formed to adhere to the corrugated steel pipe; and an upper surface layer disposed on a surface of the steel-plate adhesive layer and made of a corrosion-resistant material.

Description

Coated corrugated steel pipe with a film that is easy to repair the damaged coating layer}

The present invention relates to a coated corrugated steel pipe provided with a film for easy repair of a damaged coating layer, and more particularly, to molecules having excellent adhesion to an organic compound-based repair agent and a paint on the surface of a corrosion resistant multilayer film coated on a corrugated steel pipe. It has a structure, which is strong against external impacts, and has excellent adhesion. When peeling, breakage, or scratch on the surface of a multilayer film occurs, it is repaired with organic compound-based repair agent and paint and prevents peeling phenomenon. A corrugated corrugated steel pipe provided with a film for easy repair of a damaged coating layer.

Drainage structures buried underground to treat rainwater and sewage are mainly used for concrete fume pipes, concrete pipes, PC boxes, etc., but the lack of resources for raw materials, subsidiary materials, productivity and constructability, and damage And damage occurred.

In order to solve these problems, galvanized steel sheet is manufactured and replaced by spiral corrugated steel pipe. At this time, corrugated steel pipe is a product made by corrugated galvanized steel sheet to increase rigidity and then spirally piped. It is structurally safe and durable, resistant to corrosion, breakage and damage, and has a long service life and high productivity and workability. It is widely used in various civil engineering fields.

In order to prevent corrosion of the steel plate, which is a raw material, steel plate coated with a hot dip galvanized layer is used, but corrugated steel pipe with more durability due to various environmental changes such as soil corrosion and acidification of rainwater due to environmental pollution and site conditions. This is required. Therefore, we produce PE coated corrugated steel sheet and PE coated corrugated steel pipe made by laminating high strength PE (polyethylene) film on the outer circumferential surface of the galvanized steel sheet by high frequency induction heating method, which is higher corrosion resistance, durability, and Due to its chemical properties, it is possible to construct salty areas such as soil soil, reclaimed land, and harbor, which is economical.

However, the corrugated corrugated steel pipe coated with a high strength PE (polyethylene) film has a problem in that it cannot partially repair the portion in which the coating layer is broken, cracked, peeled, etc. during transportation or construction of the finished product.

For partial repair work, simple methods include spraying, thermal fusion, and painting with organic compound-based repair agents (oil-based repair agents, liquid repair agents, and other compound repair agents). The surface of the PE (polyethylene) film has a stable molecular structure, the chemical bond between the outer layer of the film and the repair agent does not occur, there is a problem that peels easily after repair work.

In addition, when the peeled part of the PE coated corrugated steel pipe is used without repairing, corrosion of the galvanized layer proceeds and the service life is considerably lowered compared to the PE coated corrugated steel pipe which is not peeled off, so that repair or replacement is necessary. . In particular, in the case of replacement, it is difficult to replace only the peeled part due to the characteristic of the corrugated steel pipe formed by the corrugated steel sheet formed in a spiral shape can bring economic losses.

Republic of Korea Patent Registration No. 10-0371498

Therefore, the present invention has been made to solve the above problems, and in addition to preventing the damage of the galvanized layer of corrugated steel pipe before and after production and construction, including corrosion resistance, durability, chemical resistance, wear resistance, etc. The purpose of the repair is to easily and firmly repair the damaged part of the film coating layer by using an organic compound-based repair agent.

In addition, the film coated on the inner and outer circumferential surface of corrugated steel pipe is basically made into a structure that can repair damaged parts with organic compound repair agent along with adhesion, corrosion resistance, durability, chemical resistance, and abrasion resistance. Another object is to provide a corrugated corrugated steel pipe having a film which is easy to repair a damaged coating layer having water retention properties.

The above object is made of a corrugated steel pipe having a corrugated steel inner and outer surface and a multilayer film formed on the inner and outer walls of the corrugated steel pipe, wherein the multilayer film is a steel sheet adhesive layer formed to be bonded to the corrugated steel pipe; and the steel sheet adhesive layer It is disposed on the surface of the upper surface layer consisting of a corrosion-resistant material; characterized in that it comprises a.

The steel plate adhesive layer may include at least one of a polar monomer-olefin monomer copolymer, an alpha olefin copolymer, an olefin elastomer, a styrene monomer-olefin monomer copolymer elastomer, and an elastomer-polyester copolymer. It features.

The upper surface layer may include metallocene polypropylene, metallocene polyethylene, and polyolefin elastomer, and the steel plate adhesive layer may further include 10-30 wt% of metallocene polyethylene or metallocene polypropylene. It is characterized by improving the adhesion with the surface layer.

The steel plate adhesive layer may further include 10-30 wt% of metallocene polyethylene or metallocene polypropylene and 1-10 wt% of petroleum resin, and the multilayer film having the steel plate adhesive layer may be 0.2 mm to 0.4 mm. After forming the corrugated steel pipe to maintain the surface of the steel sheet at 160 ~ 180 ℃ through a high frequency induction heating process, and then welding the multilayer film 100 in the multilayer film coating step of the steel sheet to improve adhesion to the upper surface layer It is characterized by improving.

As described above, according to the present invention, the adhesion and water retention between the multilayer film thermally fused to the inner and outer surfaces of the corrugated corrugated steel pipe and the organic compound repair agent are improved, so that the organic layer may be damaged, cracked, peeled, or the like. Maintenance work is easy as repairing agent.

In addition, the repair work is easy to repair at the production site and construction site, because it is easy to work, through which there is no need for the entire replacement work has a high economic efficiency.

1 is a block diagram of a coated corrugated steel pipe provided with a film for easy repair of a damaged coating layer according to the present invention.
Figure 2 is a manufacturing flow chart of the coated corrugated steel pipe with an easy repair of damaged coating layer according to the present invention.
Figure 3 is a schematic diagram of a coated corrugated steel pipe with an easy-to-repair film of a damaged coating layer according to the present invention.
Figure 4 shows the results of the adhesion test (ASTM D3359) for the organic compound-based repair agent of a high-strength PE (polyethylene) film coated on a corrugated steel pipe according to the prior art.
Figure 5 shows the results of the adhesion test (ASTM D3359) for the organic compound-based repair agent of the high-strength PE (polyethylene) film coated on the corrugated steel pipe according to the present invention.
6 is a table showing the grading criteria of the adhesion test (ASTM D3359) for the organic compound-based repair agent.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the following description of the present invention, a description of a known function or configuration will be omitted to clarify the gist of the present invention.

In addition, in describing the present invention, terms indicating directions are described to enable those skilled in the art to clearly understand the present invention and indicate relative directions, and thus, the scope of rights is not limited thereto.

1 is a block diagram of a coated corrugated steel pipe provided with a film for easy repair of a damaged coating layer according to the present invention.

Referring to Figure 1, the coated corrugated steel pipe with a film for easy repair of the damaged coating layer according to the present invention is that the multilayer film 100 is formed on the inner and outer walls of the corrugated steel pipe 10 having a corrugated inner and outer surface, The multilayer film 100 coated on the steel pipe 10 improves the adhesive strength with the organic compound-based repair agent so that the repair agent does not peel off when the corrugated steel pipe 10 ruptures, cracks, or peels off.

The multilayer film 100 is coated on the surface of the corrugated steel pipe 10 for corrosion resistance, and includes a steel plate adhesive layer 110 having excellent adhesion with a steel plate and an upper surface layer 120 having good paint adhesion. At this time, the multilayer film 100 is preferably formed to a thickness of 0.2mm to 0.4mm.

If the multi-layer film 100 is less than 0.2mm, the distinction between the upper layer and the lower layer is unclear, and problems such as melting of the upper layer during melting of the lower adhesive layer occur.

In addition, when the multi-layer film 100 has a thickness of 0.4mm or more, there is a problem that the multi-layer coated film ruptures or cracks when the corrugated steel pipe is manufactured, and thus an optimal thickness is formed to 0.2mm to 0.4mm.

The steel plate adhesive layer 110 is bonded to the inner and outer walls of the corrugated steel pipe 10 to be bonded to the corrugated steel pipe 10. At this time, the steel plate adhesive layer 110 is at least any one of the polar monomer-olefin monomer copolymer, alpha olefin copolymer, olefin elastomer, styrene monomer-olefin monomer copolymer elastomer, elastomer-polyester copolymer having an adhesive property It has a configuration to include. In addition, the steel sheet adhesive layer 110 may further include 10 to 30 wt% of metallocene polyethylene or metallocene polypropylene to improve adhesion to the upper surface layer 120. And the steel plate adhesive layer 110 is further added 1 ~ 10 wt% of petroleum resin to improve the adhesive strength with the corrugated steel pipe (10). Here, the melting point of the main component of 50 wt% or more of the components of the steel plate adhesive layer 110 is set to a range of 100 ~ 160 ℃ in consideration of the heating temperature because the adhesion of the multilayer film 100 is made through a high frequency induction heating process. .

The upper surface layer 120 is laminated on the steel plate adhesive layer 110, and is made of a corrosion-resistant material so that the corrugated steel pipe 10 is not corroded. In this case, the upper surface layer 120 has a structure including a metallocene polypropylene, a metallocene polyethylene, a polypropylene and polyethylene mixture and a polyolefin elastomer (POE). Here, the upper surface layer 120 is composed of metallocene polypropylene as a main component to improve interfacial adhesion between the organic compound-based repair agent and paint, and further includes metallocene polyethylene, polyolefin elastomer, and a compatibilizer to prevent peeling. do. Due to these characteristics, it is possible to solve the problem of high strength polyethylene, which was used as a film for coating a conventional steel pipe, because the organic compound-based repair agent and the paint do not become interfacial and peel off. In addition, a polyolefin elastomer (POE) is added with a compatibilizer in which maleic anhydride is graft-polymerized to improve adhesion and compatibility. The upper surface layer 120 is 40 to 60 wt% of metallocene polypropylene, 10 to 30 wt% of metallocene polyethylene, and 10 to 30 wt% of polyolefin elastomer (POE) added with a compatibilizer polymerized with maleic anhydride. In addition, in addition to the petroleum resin (DCPD, C5, C9) and further comprises a polar monomer-olefin monomer copolymer.

Figure 2 is a manufacturing flow chart of a coated corrugated steel pipe with an easy repair of damaged coating layer according to the present invention, Figure 3 is a schematic diagram of a coated corrugated steel pipe with an easy repair of a damaged coating layer according to the present invention. .

With reference to Figures 2 to 3, the coated corrugated steel pipe manufacturing method provided with a film for easy repair of the damaged coating layer according to the present invention steel sheet preparation step (S100), multi-layer film provided step (S200), steel sheet surface treatment step (S300) ), Steel plate high frequency induction heating step (S400), steel sheet multilayer film compression step (S500), the multilayer film is coated through the steel sheet cooling step (S600), the multi-layer film coated corrugated steel pipe generation step (S700) is sequentially manufactured This will be described.

Steel sheet preparation step (S100) is provided with a steel sheet wound in the form of a roll. At this time, the steel sheet is preferably provided by removing the impurities on the surface.

The multi-layer film providing step (S200) is a step in which one multilayer film 100 is formed by stacking an adhesive film material and a surface layer material.

Steel plate surface treatment step (S300) is a step of improving the adhesion to the surface of the steel sheet by passing the surface treatment apparatus (A) horizontally and forming a roughness of the surface while the steel sheet of the steel sheet preparation step (S100) is released.

Steel plate high frequency induction heating step (S400) is heated while the steel plate passes through the high frequency induction heating device (B). The high frequency induction heating device (B) is a step of allowing the surface of the steel sheet to be maintained at 160-180 ° C. so that the multilayer film 100 may be weld-coated in a subsequent steel plate multilayer film coating step (S500).

Steel sheet multilayer film coating step (S500) is a step in which the multilayer film 100 of the multi-layer film providing step (S200) is integrally formed while being laminated and supplied to the upper and lower surfaces of the steel sheet by the coating device (C).

The steel sheet cooling step S600 in which the multilayer film is coated is a step in which the steel sheet of the high temperature is cooled while the steel sheet coated with the multilayer film 100 passes through the cooling device D.

Corrugated steel pipe generation step (S700) is coated with a multilayer film is a step in which the steel sheet is formed by rolling the steel sheet spirally while passing through the tubing device (E) after forming the corrugated steel sheet coated with the multilayer film 100.

Figure 4 shows the conventional organic compound-based water-retaining agent of the high strength polyethylene film coated on the corrugated steel pipe, the adhesion test for the paint (ASTM D3359), Figure 5 shows the organic film of the multilayer film coated on the corrugated steel pipe according to the present invention The result of the adhesion test for the compound-based repair agent and paint (ASTM D3359) is shown, and FIG. 6 is a table showing the grading criteria of the adhesion test for the organic compound-based repair agent and paint (ASTM D3359).

As shown in FIG. 7, the adhesion test for the repair agent and the paint of the film is performed according to the Cross Cut Test ASTM D3359. At this time, the grade is determined in order of 0B, 1B, 2B, 3B, 4B, 5B according to the area peeled off by attaching the tape to the organic compound-based repair agent and paint, and the higher the number, the less peeling amount. have.

Referring to FIG. 5, it can be seen that most of the paint is peeled off or dropped to the OB grade as a result of an organic compound-based repair agent and an adhesive test for paint of a high strength polyethylene film coated on a corrugated steel pipe according to the related art.

On the other hand, referring to Figure 6, it can be seen that the paint almost does not drop more than 3B grade as a result of the organic compound-based repair agent, the adhesive test for the paint of the organic compound-based multi-layer film coated on the corrugated steel pipe according to the present invention (ASTM D3359).

  As described above, the basic technical idea of the present invention is a repair agent based on an organic compound based on the surface of the corrosion resistant multilayer film coated on corrugated steel pipe, and a repair agent applied to repair damage of the corrosion resistant multilayer film due to excellent adhesion to paint. It can be seen that the present invention provides a corrugated corrugated steel pipe having a film that is easy to repair a damaged coating layer in which peeling is prevented and reliability of the repair operation is increased.

Various modifications are possible by those skilled in the art within the basic technical scope of the present invention, and therefore, the scope of the present invention should be interpreted within the claims written to include various modifications. will be.

10: corrugated steel pipe
100: multilayer film
110: steel plate adhesive layer
120: upper surface layer
S100: steel sheet preparation step
S200: Multi-layer film preparation
S300: Steel plate surface treatment step
S400: high frequency steel plate induction heating step
S500: Steel plate multilayer film coating step
S600: Multi-layer film coated steel sheet cooling step
S700: step of generating corrugated steel pipe coated with multilayer film
A: Surface Treatment Equipment
B: high frequency induction heater
C: coating device
D: Chiller
E: Tube system

Claims (1)

A corrugated steel pipe having a corrugated inner and outer surface and a multilayer film coated on inner and outer walls of the corrugated steel pipe,
The multilayer film,
A steel plate adhesive layer formed to bond with the corrugated steel pipe
It is disposed on the surface of the steel sheet adhesive layer, and includes an upper surface layer made of a corrosion resistant material,
The steel plate adhesive layer,
At least one of a polar monomer-olefin monomer copolymer, an olefin elastomer, and an elastomer-polyester copolymer,
The upper surface layer,
40 to 60 wt% of metallocene polypropylene, 10 to 30 wt% of metallocene polyethylene, 10 to 30 wt% of polyolefin elastomer (POE) to which a compatibilizing agent is graft polymerized with maleic anhydride added,
In addition, the steel plate adhesive layer,
Further comprising 10 to 30 wt% of metallocene polyethylene or metallocene polypropylene and 1 to 10 wt% of petroleum resin,
In addition, the multilayer film having the steel plate adhesive layer is a multilayer film formed to a thickness of 0.2mm to 0.4mm,
The coated corrugated steel pipe is provided with a steel sheet preparation step (S100) and a multi-layer film (S200), a steel plate surface treatment step (S300), a steel plate high frequency induction heating step (S400) and a steel plate multilayer film compression step (S500) and the multilayer film is After the coated steel sheet cooling step (S600) and the multi-layer film-coated corrugated steel pipe generation step (S700) are sequentially manufactured,
The steel sheet preparation step (S100) is provided with a steel sheet wound in the form of a roll,
The multi-layer film providing step (S200) is a multi-layer film having the steel plate adhesive layer and the upper surface layer is a step having a film formed to a thickness of 0.2mm to 0.4mm,
The steel sheet surface treatment step (S300) is a step of improving the adhesion to the surface of the steel sheet by passing the surface treatment device (A) horizontally and forming a roughness of the surface while the steel sheet of the steel sheet preparation step (S100) is released,
The steel plate high frequency induction heating step (S400) is heated while the steel plate passes through the high frequency induction heating device (B),
The high frequency induction heating device (B) is a step of allowing the surface of the steel sheet to be maintained at 160 ~ 180 ℃ to the multilayer film 100 is welded and coated in the subsequent step of the steel film multilayer film coating step (S500),
Steel sheet multilayer film coating step (S500) is a step to ensure that the multilayer film 100 of the multi-layer film provided step (S200) is integrally formed while being laminated and supplied to the upper and lower surfaces of the steel sheet by the coating device (C),
The steel sheet cooling step (S600) coated with the multilayer film is a step in which a steel sheet of high heat is cooled while the steel sheet coated with the multilayer film 100 passes through the cooling device (D),
The multi-layer film-coated corrugated steel pipe generation step (S700) is a step in which the steel sheet is formed by forming a steel sheet in a spiral shape while corrugating the steel sheet coated with the multi-layer film 100 and passing through the tubing device (E). ,
Damaged to increase the adhesive strength of the organic compound-based repair agent of the multi-layer film coated on the corrugated steel pipe by sequentially producing the corrugated steel pipe generation step (S700) in the steel sheet preparation step (S100) Coated corrugated steel pipe with a film for easy repair of the coating layer.

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