KR101267035B1 - Inner coating steel pipe with epoxy powder coating - Google Patents

Abstract

PURPOSE: An inner surface coated steel pipe using epoxy powder coating is provided to perform powder coating on the inner surface of a pipe, thereby preventing contamination on the periphery of a coating site and reducing the space for a manufacturing facility. CONSTITUTION: An inner surface coated steel pipe using epoxy powder coating comprises an epoxy coating layer, an adhesive resin layer, and a polyethylene layer. The steel pipe is heated up to a temperature of 150-250 deg. C on the center part is and to a temperature of 180-300 deg. C on both ends. The heated steel pipe is rotated and simultaneously coated with the epoxy coating layer, the adhesive resin layer, and the polyethylene layer on the outside of the steel pipe. Epoxy powder is supplied into the inside of the steel pipe where the steel pipe rotates at 120-230 rpm and the powder moves at 50-70 km/hr. The coating continues for 7-17 minutes to form coating with 400-550 micrometers in thickness on the inner surface of the steel pipe.

Description

Inner coating steel pipe with epoxy powder coating

The present invention relates to an inner coated steel pipe using epoxy powder coating, and more particularly, by using epoxy powder on the inner surface of an outer diameter coated steel pipe, it is possible to reduce the generation of harmful substances, to prevent surrounding contamination, and to greatly reduce the coating time. The present invention relates to an inner coated steel pipe using epoxy powder coating.

In general, pipes are used for various applications in various prefabricated structures, and these pipes are mainly made of a metal material such as steel, and recently, pipes with metal surface treatment, pipes coated with liquid paint, or the like Coating pipes coated with synthetic resins are widely used. In particular, the synthetic resin coating pipe can be given a beautiful appearance by processing a variety of colors on the outer diameter surface according to the color of the synthetic resin to be coated.

The pipes used as water and sewage pipes among the pipes are mostly steel pipes due to the high water pressure. And the steel pipe is coated on the inner and outer surfaces to prevent corrosion by the fluid. At this time, the coating material used for coating the steel pipe is to use a liquid resin or resin powder.

In the coating method of steel pipe using powder, the surface of the steel pipe is pretreated so that the paint is adhered well, and the steel pipe is preheated to about 200 ° C. to 230 ° C. using a heating apparatus. Next, a predetermined thickness is sprayed onto the preheated steel pipe by spraying powder coating. Then, the powder coating is hardened by the heat of the steel pipe to form a coating film.

On the other hand, such a conventional steel pipe coating apparatus is disclosed in Korean Unexamined Patent Publication No. 2010-0012538 and Patent Publication No. 10-0992571.

In particular, Patent Publication No. 10-1141583 (Registered on April 24, 2012) is a steel pipe heated to 170 ~ 300 ℃ is seated, the steel pipe rotating portion for rotating the steel pipe, located above the correlation spaced apart from the steel pipe An outer surface coating part for coating epoxy powder on an outer surface of the steel pipe, and provided to be movable on one side of the steel pipe rotating part so as to be inserted into the inside of the steel pipe, the inner surface moving coating part moving while spraying epoxy powder on the inner surface of the steel pipe; And a scattering powder suction part covering the open both ends of the steel pipe seated on the steel pipe rotating part and sucking the epoxy powder scattered by the injection of the inner surface moving coating part to the outside of the steel pipe, wherein the scattering powder suction part of the steel pipe A first cover case movably installed at one side of the steel pipe to cover one side, and movable to the other side of the steel pipe to cover the other side of the steel pipe It was configured to include a second cover case, a dust collector for sucking the first cover case and the second case cover of the air through the duct device.

However, in the conventional steel pipe coating apparatus, since the powder injection hole connected to the inner surface moving coating part while rotating the steel pipe is coated on the inner diameter of the steel pipe while moving the inner diameter of the steel pipe, the plating time takes 4 to 5 minutes, thus decreasing productivity. Since one side of the device for rotating the steel pipe to install the inner surface movement coating part takes a very long length and takes up a lot of space occupy the space disadvantage, and because the coating by the method of spraying epoxy powder while moving the inner diameter When applied to a large steel pipe of 300mm or more does not cause a big problem, when applied to a steel pipe of 300mm or less in diameter will cause a problem that the productivity is further reduced.

Document 1. Registered Patent Publication No. 10-0979902 (registered Aug. 30, 2010) Document 2. Registered Patent Publication No. 10-0992571 (registered November 1, 2010) Document 3. Registered Patent Publication No. 10-0806942 (registered February 18, 2008) Document 4. Registered Patent Publication No. 10-1141583 (Registered April 24, 2012)

The problem of the present invention devised to solve the problems occurring in the conventional steel pipe coating as described above, the outer diameter of the steel pipe is coated in a general manner, while rotating the steel pipe heated to a predetermined temperature at a predetermined speed to the inner diameter By supplying the epoxy powder, the epoxy powder is coated at a constant thickness in the inner diameter, so that the coating is made without spraying the epoxy powder while transferring the inner diameter.

Another problem of the present invention, since the powder coating is performed without the need for a spray device of the powder can not only reduce the coating time of the steel pipe, facilitate the coating work, but also by coating the inner diameter of the steel pipe using epoxy powder to The aim is to prevent contamination and to significantly reduce the space of production facilities.

In order to achieve the above object, the present invention is to heat the steel pipe to maintain a temperature of 150 ~ 300 ℃, while rotating the heated steel pipe to the coated steel pipe formed by forming an epoxy coating layer, an adhesive resin layer and a polyethylene layer in the outer diameter In
The heating temperature of the steel pipe is heated to a central portion of 150 to 250 ℃ and both ends are heated to 180 to 300 ℃, while coating the epoxy coating layer, adhesive resin layer and polyethylene layer on the outer diameter while rotating the heated steel pipe After supplying the epoxy powder to the inner diameter and rotating at 120 to 230rpm per minute, the coating was formed by coating the epoxy powder coating layer by coating it for a thickness of 400 to 550um by moving the powder at a speed of 50 to 70 km / hr for 7 to 17 minutes. It is characterized by.

The present invention provides a coated steel pipe formed by heating a steel pipe to maintain a temperature of 150 to 300 ° C. and forming an epoxy coating layer, an adhesive resin layer, and a polyethylene layer on an outer diameter while rotating the heated steel pipe.
The heating temperature of the steel pipe is heated to a central portion of 150 to 250 ℃ and both ends are heated to 180 to 300 ℃, while coating the epoxy coating layer, adhesive resin layer and polyethylene layer on the outer diameter while rotating the heated steel pipe While supplying the epoxy powder to the inner diameter while rotating at 120 ~ 230rpm per minute coating the epoxy powder coating layer by coating for 50 ~ 70km / hr, 7 to 17 minutes to the thickness of 400 ~ 550um by coating the epoxy powder coating layer It is to be done.

According to the steel pipe coated with the epoxy powder according to the present invention constituted as described above by supplying the epoxy powder to be coated according to the heating and rotational speed of the steel pipe can greatly shorten the coating time, and facilitate the coating operation By coating the inner diameter of the steel pipe with epoxy powder and sealing both sides of the steel pipe, it prevents the surrounding pollution and provides the effect of greatly reducing the space by eliminating the need to spray the epoxy powder while moving in the inner diameter of the steel pipe. It is.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
Figure 2 is a front view showing the installation state for the main part of the present invention
Figure 3 is a side view showing the installation state for the main part of the present invention
4 is an enlarged cross-sectional view of the main portion of the main part of the present invention;
5 is a perspective view of a steel pipe of the present invention;
6 is a block diagram showing a preferred embodiment of the present invention.
7 is a block diagram showing another embodiment of the present invention.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

Hereinafter, with reference to the accompanying drawings an inner coated steel pipe using an epoxy powder coating according to the present invention will be described in detail.

1 is a plan view showing an installation state of a preferred embodiment of the present invention, Figure 2 is a front view showing the installation state for the main part of the present invention, Figure 3 is a side view showing the installation state for the main part of the present invention, 4 shows an enlarged cross-sectional view of the main portion of the main part of the present invention.

1 and 2, a steel pipe driving device 60 and a driving guide device 70 in which the steel pipe 10 is seated and rotated are installed, and an outer diameter coating device for coating an outer diameter of the steel pipe 10 ( 30), the epoxy powder supply device 20 for coating the inner diameter of the steel pipe 10 and the dust collecting device 50 for collecting dust by coating the inner diameter of the steel pipe 10 and the remaining powder.

The steel pipe driving device 60 and the driving guide device 70 in which the steel pipe 10 is seated and rotated are provided with a rotation guide roll 63 on a rotation shaft 62 that rotates by transmitting power of the motor 61. A steel pipe driving device (60) is installed on the lower side of the steel pipe (10), and the movable table (72) is installed on the opposite side of the steel pipe driving device (60) and the rail (71) can change its position. Is installed and the drive guide device 70 for guiding the rotation of the rotation guide roller 74 in the lower side of the steel pipe 910 on the upper rotation shaft 73 is installed.

In the epoxy powder supply part 22 connecting one side of the steel pipe 10, a supply pipe 21 is connected to the epoxy powder supply device 20 so as to supply the epoxy powder at a predetermined speed.

On the opposite side of the epoxy powder supply part 22 of the steel pipe 10, a powder suction part 51 is installed and connected to the dust collector 50 by a dust collecting pipe 52 to coat the inner diameter of the steel pipe 10 and suck the remaining powder. Install it.

As shown in Figure 3, the outer diameter coating device 30 is installed on the upper side of the steel pipe 10, the outer diameter coating device 30 supplies a hopper 31 for supplying an adhesive resin at a predetermined interval, and polyethylene The hopper 32 and the hopper 33 for supplying the epoxy are installed at regular intervals so as to supply the raw materials in order to the lower side to coat the outer diameter of the steel pipe 10.

And the lower side of the steel pipe 10 is provided with a heating tube 40 to be heated to a predetermined temperature to coat the steel pipe 10.

As shown in FIG. 4, the steel pipe 10 is connected to the epoxy powder supply part 22 to supply the epoxy powder supplied from the epoxy powder supply device 20 to the inner diameter of the steel pipe 10, and the powder suction part ( 51 is installed so that the front end of the steel pipe 10 is connected to block one end with a blocking cover 53 to be installed on the cover connecting rod 54 to discharge the uncoated powder from the inner diameter of the steel pipe 10 to the outside do.

5 is a perspective view of the steel pipe of the present invention, the coated steel pipe 10 using epoxy powder is formed by forming a coating film formed on the inner diameter and the outer diameter, respectively, and forming an uncoated portion at both ends of the coating film steel pipe (10) This is to secure the connection part when connecting).

The steel pipe 10 consists of an epoxy coating layer 13, an adhesive resin layer 14 formed thereon, and a polyethylene layer 15 formed on the adhesive resin layer 14 by the outer diameter of the metal layer 11. This improves the corrosion resistance of the steel pipe 10.

In addition, since the epoxy powder is used to coat the inner diameter of the steel pipe 10, the epoxy powder coating layer 120 is prevented from containing harmful substances, thereby preventing contamination of the fluid flowing therein.

Figure 6 is a block diagram showing a preferred embodiment of the present invention, the surface treatment step (S1) for removing the foreign matter interspersed by the shot blasting method for coating on the inner and outer diameter of the steel pipe 10;

The surface-treated steel pipe 10 is supplied to the steel pipe driving device 60 and the driving guide device 70 to rotate to maintain a temperature of 150 to 300 ° C. by heating through the gas supplied from the heating pipe 40. Heat; A steel pipe heating step (S2) of heating at 150 to 250 ° C. at the center and heating at 180 to 300 ° C. at both ends;

The outer diameter coating step of forming the epoxy coating layer 13, the adhesive resin layer 14 and the polyethylene layer 15 by the raw material supplied from the outer diameter coating device 30 to the outer diameter while rotating the heated steel pipe 10 (S3);

Cooling step (S4) for cooling so that the coating layer of the outer diameter coated steel pipe 10 is not separated;

It is molded through the inner diameter coating step (S5) of coating the epoxy powder coating layer 12 by supplying the epoxy powder from the epoxy powder coating apparatus 20 to the inner diameter while rotating the steel pipe (10).

Figure 7 is a block diagram showing another embodiment of the present invention, the surface treatment step (S1) for removing the foreign matter interspersed by the shot blasting method for coating on the inner and outer diameter of the steel pipe 10;

The surface-treated steel pipe 10 is supplied to the steel pipe driving device 60 and the driving guide device 70 to rotate to maintain a temperature of 150 to 300 ° C. by heating through the gas supplied from the heating pipe 40. Heat; A steel pipe heating step (S2) of heating at 150 to 250 ° C. at the center and heating at 180 to 300 ° C. at both ends;

While rotating the heated steel pipe 10, the epoxy coating layer 13, the adhesive resin layer 14, and the polyethylene layer 15 are formed by the raw material supplied from the outer diameter coating device 30 to the outer diameter, and at the same time, the inner diameter. Supplying the epoxy powder from the epoxy powder coating apparatus 20 to the outer diameter, inner diameter coating step (S6) to coat the epoxy powder coating layer 12;

It is molded through the cooling step (S5) for cooling the steel pipe 10 coated with the outer diameter and the inner diameter.

The steel pipe 10 is heated at the same time or heated to 150 ℃ to 300 ℃ in another heating device (not shown), and then moved to the steel pipe driving device 60 through a transfer machine or a crane and supplied.

Here, the steel pipe 10 is to maintain the temperature of the central portion at 150 ~ 250 ℃, to maintain the 180 ~ 300 ℃ at the end away from the center, if the temperature is less than 150 ℃ melting of the powder applied to the inner surface and the outer surface Does not proceed smoothly and a defect occurs in the coating film, if the temperature of the steel pipe 10 exceeds 300 ℃ the characteristics of the steel pipe 10 is changed and the coating film formed by melting the powder flows down from the steel pipe (10) In addition, 30-50 ° C. was heated higher at the end than in the center so that the epoxy powder was generally coated through a uniform distribution.

Steel pipe 10 according to the present embodiment is preferably heated to a central portion of 180 ~ 220 ℃, end 210 ~ 230 ℃.

The steel pipe 10 that rotates through the steel pipe driving device 60 rotates while being supported by the steel pipe driving device 60 and the driving guide device 70 on both sides, and the steel pipe 10 rotates about 120 to 230 times per minute. Rotate

To this end, the steel pipe driving device 60 is able to control the rotational speed of the seated steel pipe 10 by installing a rotation guide roller 63 on the rotating shaft 62 that rotates with the driving force of the motor 61, the drive The guide device 70 is installed so that the movable table 72 can reciprocate on the rail 71 so that the position can be changed according to the length of the steel pipe 10, and the rotation guide roller 74 supports and drives the guide. The guide device 70 guides the rotation of the steel pipe 10.

Outer diameter coating device 30 is located on the upper side to be spaced apart from the steel pipe 10, the epoxy powder is coated on the outer diameter of the steel pipe (10).

To the outer diameter of the steel pipe 10 is applied after the epoxy coating layer, adhesive resin layer, polyethylene (PE) coating layer in sequence to move through the frame 34 in the direction perpendicular to the steel pipe 10 to form an outer coating film and then supplied Be sure to

More specifically, the epoxy coating layer 13, adhesive resin layer 14, polyethylene (PE) coating layer 15 is accommodated in each hopper (31, 32, 33), the hopper is the upper side of the steel pipe (10) The epoxy coating layer 13, the adhesive resin layer 14, and the polyethylene (PE) coating layer 15 are sequentially applied while moving along the frame 34 constructed in the construction. At this time, the hopper (31, 32, 33) is formed in the longitudinal direction of the steel pipe 10, the outlet for discharging the contents therein.

In the outer diameter coating apparatus 30 in order to proceed with the coating operation on the outer diameter of the steel pipe 10 in sequence, it is possible to perform the coating operation independently or to simultaneously work to coat the epoxy powder coating layer 12 on the inner diameter. .

In order to coat the inner diameter of the steel pipe 10, the epoxy powder is supplied from the epoxy powder supply device 20 while rotating the heated steel pipe 10 at 120 to 230 rpm per minute through the steel pipe driving device 60 and the driving guide device 70. When supplied, the epoxy powder supplied to the inner diameter of the steel pipe 10 is heated to be coated on the inner diameter of the rotating steel pipe 10.

Here, when the diameter of the steel pipe 10 is 80-300 mm, the epoxy powder supplied from the epoxy powder supply apparatus 20 is 1.5-12 kg, and the moving speed of powder is 50-70 km / hr.

In the case where the supply amount of the epoxy powder is 1.5 or less, there is a disadvantage in that the coating of the powder is not uniformly performed.

In addition, the movement speed of the powder has a disadvantage that the coating is not well made to sink to the bottom if less than 50km / hr, there is a disadvantage that it is discharged as it is not coated and more than 60km / hr is preferable.

When the epoxy powder is supplied from the epoxy powder supply device 20, the dust collector 50 is supplied to the inner diameter of the steel pipe 10 through the epoxy powder supply part 22 in the supply pipe 21 and coated through the rotational speed and the heating temperature. Inhale at 900 ~ 1,000 Hpa and make coating thickness 400 ~ 550um.

Here, if the suction force of the dust collector 50 is 900 Hpa or less, there is a disadvantage in that dust collection of the epoxy powder is not made, and in the case of 1,000 Hpa or more, there is a disadvantage in that the coating of the epoxy powder is not made well and 960 Hpa is preferable.

In addition, the coating thickness has a disadvantage that can not maintain the normal water-permeable capacity of the tube for less than 400um for a long time, and 430um is preferable because it has a disadvantage of economical if more than 550um.

By supplying the epoxy powder to the steel pipe 10 and coating the inner diameter or the inner diameter and the outer diameter at the same time is 7 to 17 minutes, when coating within 7 minutes has a disadvantage in that the coating thickness is thin, 17 minutes or more In the case of coating, the coating thickness becomes thick, so it is uneconomical and about 10 minutes is preferable.

It will be apparent to those skilled in the art that the present invention is not limited to the embodiment described above, but may be embodied in various other forms without departing from the spirit of the invention, It will be understood by those of ordinary skill in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: steel pipe 11: metal layer
12: epoxy powder coating layer 13: epoxy coating layer
14 adhesive resin layer 15 polyethylene coating layer
20: epoxy powder supply device 21: supply pipe
22: epoxy powder supply unit 30: outer diameter coating device
31, 32, 33: Hopper 34: Frame
40: heating tube 50: dust collector
51: powder suction part 52: dust collecting tube
53: rotating cover 54: cover connecting rod
60: steel pipe driving device 61: motor
62, 73: rotation axis 63, 74: rotation guide roller
70: drive guide 71: rail
72: moving table

Claims (4)

The steel pipe 10 is heated to maintain a temperature of 150 to 300 ° C., and an epoxy coating layer 13, an adhesive resin layer 14, and a polyethylene layer 15 are formed on the outer diameter while the heated steel pipe 10 is rotated. In the coated steel pipe made of,
The heating temperature of the steel pipe 10 is heated so that the central portion is 150 ~ 250 ℃ and both ends are 180 ~ 300 ℃, and the epoxy coating layer 13 in the outer diameter while rotating the heated steel pipe 10, After coating the adhesive resin layer 14 and the polyethylene layer 15, the epoxy powder is supplied to the inner diameter and rotated at 120 to 230 rpm per minute while the powder is moved at a speed of 50 to 70 km / hr for 7 to 17 minutes to coat 400 to An inner surface coated steel pipe using epoxy powder coating, characterized in that the coating by the epoxy powder coating layer 12 by forming a thickness of 550um.
The steel pipe 10 is heated to maintain a temperature of 150 to 300 ° C., and an epoxy coating layer 13, an adhesive resin layer 14, and a polyethylene layer 15 are formed on the outer diameter while the heated steel pipe 10 is rotated. In the coated steel pipe made of,
The heating temperature of the steel pipe 10 is heated so that the central portion is 150 ~ 250 ℃ and both ends are 180 ~ 300 ℃, and the epoxy coating layer 13 in the outer diameter while rotating the heated steel pipe 10, While coating the adhesive resin layer 14 and the polyethylene layer 15, the epoxy powder was supplied to the inner diameter and rotated at 120 to 230 rpm per minute while the powder was moved at a speed of 50 to 70 km / hr for 7 to 17 minutes to coat 400 to 550 um. Internal coating steel pipe using an epoxy powder coating, characterized in that the coating by molding to form a thickness of the epoxy powder coating layer (12). delete delete

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