KR101469861B1 - Epoxy coating composition for inner-coating of water supply pipelines - Google Patents

Abstract

The present invention relates to an inner-coating device of water supply pipelines which includes a rotation base which is fixed and rotated in the length direction of a steel pipe; a cable installation unit which allows a cable to penetrate the steel pipe to be installed at both sides; a driving type injection device which reciprocates along the cable and injects cleaning air and paint onto the inside of the steel pipe to be coated; a cleaning supply part which supplies the cleaning air for cleaning the inside of the steel pipe through hose connection with one side of the driving type injection device; and a paint supply part which supplies paint for coating the inside of the steel pipe through house connection with the other side of the driving type injection device.

Description

[0001] Epoxy coating compositions for inner-coating of water supply pipelines [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water pipe internal painting apparatus, and more particularly, to a water pipe apparatus for spraying clean air and paint on the inner surface of a steel pipe while reciprocating the traveling- Tube internal coating apparatus.

The inner and outer surfaces of the steel pipe are required to be protected against contamination by transporting fluids and environment suitable for the laying environment so that the steel pipe itself can be protected from corrosion.

Coating and lining method is the most commonly applied method, which directly affects the safety and lifespan of steel pipes. Therefore, the quality of the coating material used directly for the coating and the coating technique for coating the coating material on the steel pipe are very important Do.

In particular, in the case of water pipes for tap water, the quality of tap water flowing in the steel pipe directly affects the public health. In Korea, the national standard (KS D3565) for 'waterproof coating steel pipe', which occupies most of the water pipe for the water supply, specifies only a single liquid epoxy material for the inner surface coating material. There is a case of exfoliating, and because of using solvents containing components such as benzene and toluene, there is still a possibility of elution, but alternative coating materials and techniques are not developed.

An example of such a technique for solving the problem is disclosed in Korean Patent Laid-Open Publication No. 2006-0020076 published on Mar. 03, 2006. The technique disclosed in the above-mentioned prior art is applied to the inner surface of a steel pipe by coating a liquid type polyurethane resin of a fast drying type non-solvent type of polymer plastic resin, and the outer surface of the steel pipe is coated with a conventional technique (such as coal tar enamel, asphalt coating, polyethylene coating, Or a method of coating a polyurethane resin coating material like the inner surface, and a product manufactured by such a method.

In general, a polyurethane resin is obtained by combining isocyanate with a polyol, and a polyurea resin is obtained by combining an isocyanate and an amine. Such a polymer plastic resin may have various properties depending on the blending ratio of raw materials used, .

Since polyurethane resin is sensitive to moisture, it is not used for a steel material such as a steel pipe, but is used as a construction or industrial material such as a foam insulation material. On the other hand, a polyurea resin does not react well with moisture , It is usually used for construction work.

Since the polyurea resin coating material has a high viscosity, it is necessary to spray at a high pressure (usually 2,500 psi or more) when coating the steel pipe, and the paint should be heated and kept at a very high temperature (usually 70 ° C or more).

In addition, since the adhesive strength is low, it is necessary to apply a primer to compensate the adhesive strength before painting. In order to prevent the damage of the coating film due to the welding heat effect when the steel pipe is welded at the piping site, Should be left uncoated and not painted.

In addition, a coating method of performing a protective coating on the surface in order to protect the surface of the steel pipe is disclosed in Korean Industrial Standards KSD3607 and KSD3589.

In the case of KSD3607, the pretreatment process for mechanically or chemically removing oil, grease, and other foreign matter adhered to the pipe is performed, and after the pre-treated steel pipe is heated to a predetermined temperature, It adopts the coating method which melts and sticks.

In the case of KSD3589, after the pre-treatment, the outer surface of the steel pipe is preheated and an adhesive is applied and polyethylene is coated by an extrusion method.

That is, in the conventional coating method, one or two layers of protective coating are applied to the outer surface of the steel pipe, and the coating method is classified into a powder welding method or an extrusion method.

Recently, as a coated steel pipe that has recently been spotlighted, a protective coating layer on the surface is formed by forming a three-layer coating layer composed of three layers of an epoxy adhesive (FBE; Fusion Bonded Epoxy) layer, a polyethylene adhesive (PE Adhesive) layer and a polyethylene Steel pipes have been developed and utilized.

First, when a three-layer coating layer is formed by an extrusion method, it can be applied to a straight steel pipe. However, in the case of an irregularly shaped mold, an extrusion die can not be used. there was.

Next, in the case of forming a three-layer coating layer on the surface of a steel pipe or a deformed pipe by using the powder deposition coating method, the coating material is sprayed by manual operation of the operator after heating the straight steel pipe or the deformed pipe, So that the coating material is melted on the surface of the steel pipe or mold.

However, in the case of such a powder deposition coating method, when the coating material is sprayed by hand, the thickness of the coating layer is unevenly formed.

Therefore, as an example of a technique for solving the above-mentioned problem, "Powder-weldable coating apparatus of three-layer coated steel pipe, coating method using the same, and three-layer coated steel pipe" are disclosed in Korean Patent Publication No. 0725731 .

The prior art as disclosed in this patent discloses a powder coating type coating apparatus for a layer-coated steel pipe which comprises an injector 400 for injecting a coating material into a steel pipe 1, a fixing device 100 (see FIG. 1) mounted on both sides of the end of the steel pipe 1, A rotating device 200 for rotating the fixing device 100 after the fixing device 100 mounted on the end of the steel pipe 1 is seated and a bogie 300 for moving the rotating device 200.

As described above, there has been an advantage in that a spraying apparatus 400 for spraying a coating material can form a uniform coating layer with a constant distance from the steel pipe 1.

However, according to the conventional technique, the steel pipe 1 is mounted on the carriage 300 in a state in which the injection device is fixed, and then the coating is sequentially coated along the railway moving rail. Therefore, I had to have a big space.

Therefore, the conventional technology has a problem that the entire space for coating operation becomes large, which increases manufacturing cost.

In addition, when the glove or the foreign object of the worker is separated from the moving rail in the process of moving the steel pipe 1 to the respective injectors 400, There is a problem in that it is always exposed to a safety accident that is separated.

Korean Patent Registration No. 0725731

It is an object of the present invention to solve the problems of the prior art, and it is an object of the present invention to provide a coating apparatus, And it is possible to minimize the work space of the painting factory in which the work is performed and to simplify the equipment, thereby providing a convenient painting apparatus.

According to an aspect of the present invention, there is provided a rolling apparatus comprising: a rotating base in which a steel pipe is rotated in a longitudinal direction; A cable mounting base for allowing the steel pipe to pass through the cable and to be tensioned on both sides of the rotation base; A traveling-type spray device for reciprocating on the cable, spraying cleaning air and paint on the inner surface of the steel pipe during the movement, and coating the same; A washing air supply unit for supplying washing air for washing the inner surface of the steel pipe through a hose connection to one side of the traveling injector; And a paint supply unit for supplying paint to coat the inner surface of the steel pipe through a hose connection to the other side of the traveling-type spray device.

The rotary base may include a plurality of drive rollers mounted on a bottom of a longitudinal direction on which the steel pipe is mounted and rotated; And an anti-departure guide that contacts both ends of the steel pipe to prevent the steel pipe from moving in the left and right directions.

In addition, a cable fixing knob for fixing the cable and a hose guide roller for guiding the movement of the hose are further formed on the cable mounting base.

The main body of the traveling-type spray device is connected to the cable by a rail, and the first spray nozzle for spraying the cleaning air and the second spray nozzle for spraying paint are formed on the rail-coupled main body, The first injection nozzle is disposed at the front side and the second injection nozzle is disposed at the rear side.

The cleaning air supply unit may include a first drum on which a first hose for supplying compressed air is wound, the first drum is rotatably installed on the first support bar, the first power is supplied to the first drum, So that the normal rotation of the first drum is achieved.

Further, the painting material supply portion may include a second drum on which a second hose is wound to supply paint, the second drum is rotatably installed on the second supporting table, and the second power is applied to the second drum, So that the normal rotation of the second drum is performed.

The present invention can minimize the work space of the painting factory where the coating operation is performed by spraying the cleaning air and the paint on the inner surface of the steel pipe while the traveling type injection device is reciprocated while the cable is tensioned through the steel pipe And it is possible to simplify the equipment, so that the operation is convenient.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a conventional powder-coated coating apparatus of a layer-coated steel pipe. FIG.
2 is a whole view showing a water pipe internal painting apparatus according to the present invention.
3 is an enlarged view of the main part of Fig.
4 is a conceptual view illustrating a painting operation using a water pipe internal painting apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an overall view showing a water pipe internal painting apparatus according to the present invention, and FIG. 3 is an enlarged view of the main part of FIG.

As shown in the drawing, the present invention mainly includes a rotating base 10, a cable mounting base 30, a traveling injector 40, a cleaning air supply unit 50, and a paint supply unit 60.

First, a rotary base 10 in which a steel pipe 1 is rotated in a longitudinal direction is disclosed. The rotary base 10 is provided with a plurality of drive rollers 11 mounted on the bottom in the longitudinal direction on which the steel pipe 1 is placed and driven to rotate and a plurality of drive rollers 11 connected to both ends of the steel pipe 1, Preventing guide 13 for preventing the guide member 13 from being moved in the direction of the arrow.

At this time, the driving roller 11 may be made of a rubber material roller so as not to damage the outer surface of the steel pipe, and may receive another power capable of rotating.

At this time, the plurality of drive rollers 11 can transmit power from one power source at the same time. Such a structure can be achieved by connecting a plurality of drive rollers 11 by chain or the like and interlocking them.

In addition, the departure prevention guide 13 has a structure capable of sliding movement in the longitudinal direction of the outer side of the steel pipe 1, a space is provided at the time of lifting of the steel pipe 1 to secure a working space, Is fixedly secured to both ends of the steel pipe (1) to prevent movement in the longitudinal direction.

A cable installation stand (30) is disclosed in which the steel pipe (1) is inserted through the cable (20) and tensioned on both sides of the rotary base (10).

At this time, the cable installation stand 30 is installed on the rotary base 10 in the form of a support, and the cable installation stand 30 is provided with a cable fixing knob 31 for fixing the cable 20.

The cable fixing knob 31 fixes the end portion of the cable 20 by an operator and then adjusts the tension through a rotation operation so that the cable 20 is kept in a tight state.

Further, a hose guide roller 33 for guiding the movement of the hose may be further formed on the lower side where the cable fixing knob 31 is formed.

At this time, the distance between the hose guide roller 33 and the cable fixing knob 31 is sufficiently separated to prevent the cable 20 from interfering with the hose.

The hose guide roller 33 may use a rubber roller to prevent breakage of the hose.

A traveling type injection device (40) for reciprocating on the cable (20) and spraying cleaning air and paint on the inner surface of the steel pipe (1) when it is moved, is disclosed.

The traveling injector 40 includes a first spray nozzle 41 for spraying cleaning air and a second spray nozzle 43 for spraying paint onto the rail 20, The first injection nozzle 41 may be disposed in front of the coating direction of the steel pipe 1 and the second injection nozzle 43 may be disposed at the rear of the steel pipe 1 in the coating direction.

At this time, the first injection nozzle 41 can blow off the high-pressure clean air to the inner surface of the steel pipe 1, thereby removing the foreign matter on the inner surface of the steel pipe 1. The first injection nozzle 41 is disposed in front of the second injection nozzle 43 and is directed to the front side in the coating advancing direction in the cleaning air injection direction so that the removed foreign matter is swept forward and discharged out of the steel pipe .

The second injection nozzle 43 is formed by spraying the paint onto the inner surface of the steel pipe 1 so that the paint is applied to the inner surface of the steel pipe 1 by the second injection nozzle 43. At this time, The coating position is changed while rotating, and the inner surface of the steel pipe 1 can be entirely coated.

A washing air supply unit (50) for supplying washing air for washing the inner surface of the steel pipe (1) through a hose connection to one side of the traveling injector (40) is disclosed.

The washing air supplying unit 50 is provided with a first drum 51 on which a first hose 53 for supplying compressed air is wound and the first drum 51 is mounted on the first supporting table 55 And the first power section 57 is connected to the first drum 51 by power connection so that the first drum 51 is rotated in the forward and reverse directions.

The first hose 53 is connected to the first injection nozzle 41 of the traveling type injector 40 and is wound or unwound by the first drum 51 along the traveling direction of the traveling type injector 40 do.

At this time, the first drum 51 can be rotated by magnetic force while the first hose 53 is wound, and power can be shut off while the first hose 53 is being released so that idling can be performed .

A painting material supply unit (60) for supplying paint for coating the inner surface of the steel pipe (1) through a hose connection is provided at the other side of the traveling type injection device (40).

The paint supply unit 60 is provided with a second drum 61 on which a second hose 63 for supplying paint is wound and the second drum 61 is rotatably supported on the second support stand 65 And the second power unit 67 is electrically connected to the second drum 61 so that the second drum 61 can be rotated in the normal and reverse directions.

At this time, the second drum 61 can be rotated by magnetic force while the second hose 63 is wound, and power can be interrupted while idling the second hose 63 while the second hose 63 is being released .

FIG. 4 is a conceptual view illustrating a painting operation using a water pipe internal painting apparatus according to the present invention.

Referring to Fig. 4, the steel pipe 1 is mounted in the longitudinal direction on the upper portion of the rotary base 10. [

The steel pipe 1 penetrates the cable 20 and is tension-supported by the cable mounting base 30 provided on both sides of the rotary base 10. [

A traveling-type injector (40) is movably mounted on the cable (20).

A washing air supply part 50 for supplying washing air for washing the inner surface of the steel pipe 1 is connected to one side of the traveling type injector 40 by a hose.

A paint supply part 60 for supplying paint for coating the inner surface of the steel pipe 1 is connected to the other side of the traveling type injection device 40 by a hose.

The clean air supply unit 50 is connected to a separate compressor 7 to receive compressed air.

The paint supply unit 60 is connected to a separate paint storage tank 6 to receive coating paint.

First, the cleaning air supply unit 50 is operated so that the cleaning air is sprayed through the first injection nozzle 41 of the traveling-type sprayer 40.

The compressed air injected through the first injection nozzle (41) removes foreign matter on the inner surface of the steel pipe (1). At this time, the cleaning liquid may be applied together with the compressed air.

The washing air is injected through the first injection nozzle 41 and the first power unit 57 is operated to rotate the first drum 51 to wind the first hose 53. [

The driving type injector 40 is dragged and moved in the direction in which the first hose 53 is wound and the second drum 61 connected to the other side of the driving type injector 40 is allowed to idle The second hose 63 is released.

When the position of the second injection nozzle 43 of the traveling-type spray device 40 reaches the paint spraying position on the inner surface of the steel pipe 1, the paint supply part 60 is operated so that the paint flows through the second spray nozzle 43 .

The paint sprayed through the second spray nozzle 43 forms a coating layer on the inner surface of the steel pipe 1 to prevent the steel pipe from being corroded.

4, the materials stored in each of the first material storage part 2 and the second material storage part 3 are put into the melting furnace 4 to be melted The melted materials may be mixed in the mixing unit 5 and transferred to the storage tank 6 to be sprayed through the second injection nozzle 43. [

As described above, according to the present invention, the traveling type spraying apparatus is reciprocally moved on a cable installed through a steel pipe and tensioned, spraying clean air and paint on the inner surface of a steel pipe to perform coating, Can be minimized.

In addition, the apparatus can be simplified as compared to the system in which the dispenser is mounted on the existing mobile bogie, so that the operation is efficient and the risk of accident such as overturning of the bogie can be minimized.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You can understand that you can. For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not clearly disclosed in the embodiments of the present invention, Of the range. Therefore, it should be understood that the above-described embodiments are only illustrative in all aspects and should not be construed as limiting the scope of the invention, and such modified embodiments are included in the technical idea described in the claims of the present invention.

1: steel pipe 2: first material storage part
3: second material storage part 4: melting furnace
5: Mixing section 6: Storage tank
7: compressor 10: rotating base
11: drive roller 13: departure prevention guide
20: Feed cable 30: Cable installation stand
31: Cable fixing knob 33: Hose guide roller
40: traveling injector 41: first injection nozzle
43: second injection nozzle 50: washing air supply part
51: first drum 53: first hose
55: first strut 57: first power unit
60: paint supply part 61: second drum
63: 2nd Hose 65: 2nd Hanger
67: second power section

Claims (6)

A rotary base (10) in which a steel pipe (1) is rotated in a longitudinal direction;
A cable installation stand 30 for allowing the steel pipe 1 to be installed on both sides of the rotary base 10 through a cable 20;
A traveling injector 40 reciprocating on the cable 20 and spraying cleaning air and paint on the inner surface of the steel pipe 1 during the movement,
A washing air supply part 50 for supplying washing air for washing the inner surface of the steel pipe 1 through a hose connection to one side of the traveling injector 40; And
And a paint supply part (60) for supplying a paint for coating the inner surface of the steel pipe (1) through a hose connection to the other side of the traveling type injection device (40)
The washing air supply unit 50 is provided with a first drum 51 on which a first hose 53 for supplying compressed air is wound and the first drum 51 is rotated on the first strut 55 And the first power unit 57 is connected to the first drum 51 by power coupling so that the first drum 51 is rotated in the forward and reverse directions,
The paint supply unit 60 is provided with a second drum 61 on which a second hose 63 for supplying paint is wound and the second drum 61 is rotatably supported on the second support stand 65 And the second power unit (67) is power-coupled to the second drum (61) to rotate the second drum (61) in the normal and reverse directions.
The method according to claim 1,
The rotary base (10) comprises a plurality of drive rollers (11) mounted on a bottom in the longitudinal direction on which the steel pipe (1) is mounted and driven to rotate; And
And an anti-departure guide (13) for preventing the steel pipe (1) from being moved in the left and right directions by being in contact with both side ends of the steel pipe (1). The method according to claim 1,
Wherein a cable fixing knob (31) for fixing the cable (20) and a hose guide roller (33) for guiding the movement of the hose are further formed on the cable mounting base (30). The method according to claim 1,
The traveling injector 40 includes a first spray nozzle 41 for spraying cleaning air and a second spray nozzle 43 for spraying paint onto the rail 20, Wherein a first injection nozzle (41) is arranged in front of the coating direction of the steel pipe (1), and a second injection nozzle (43) is arranged behind the steel pipe (1) coating direction. delete delete

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