KR101008667B1 - The aluminum tube and process for producing same - Google Patents

Abstract

The present invention relates to an aluminum tube and a method for manufacturing the same, and more particularly, to an aluminum tube and a method for manufacturing the resin coating to be coated on the surface of the aluminum tube and improve the adhesion of the aluminum tube.

The present invention provides a feeding step of supplying an aluminum tube, a high frequency preheating step of preheating the aluminum tube at a high frequency, an adhesive coating step of applying a surface of the preheated aluminum tube with a gel adhesive, and the aluminum tube coated with the adhesive. It provides an aluminum tube comprising a resin coating step of coating with a resin and a method of manufacturing the same.

Aluminum Tube, High Frequency Preheat, Adhesive

Description

Aluminum tube and its manufacturing method {THE ALUMINUM TUBE AND PROCESS FOR PRODUCING SAME}

The present invention relates to an aluminum tube and a method for manufacturing the same, and more particularly, to an aluminum tube and a method for manufacturing the resin coated on the surface of the aluminum tube.

In general, various metal pipes are used for pipes, railings and fences, structures installed in public facilities.

Such metal pipes have a high cost and a heavy weight because copper plating or fluorine resin coating is applied to the surface to prevent corrosion. Therefore, aluminum tubes, which are lighter than metal pipes and which reduce costs, have been used in recent years.

However, even in the case of aluminum tubes, the impact resistance is weak due to external impact, the tube container may be corroded by the gas, vapor, etc. inside the aluminum tube, it is impossible to express various colors in appearance. Therefore, in order to solve these problems, a synthetic resin such as polyethylene or polyamide is coated on an aluminum tube.

Although polyamide resin is excellent in strength, impact resistance, cold resistance, etc., adhesiveness worsens in combination with aluminum or its alloy, and resin coating, such as polyamide coated on an aluminum tube, can be easily separated.

In order to improve the adhesion between the aluminum tube and the resin coating, a conventional chromate treatment was performed on the aluminum tube. The chromate treatment includes chromic acid chromate treatment, phosphoric acid chromate treatment or coated chromate treatment containing organic polymer. However, the chromate treatment method is also poor in adhesion and the reaction time is long, the productivity is lowered, in the case of chromic acid chromate treatment, there is a problem that requires a separate investment in the waste liquid treatment.

Also, conventionally, liquid epoxy resins have been used on aluminum tubes to bond between aluminum tubes and resin coatings. When the liquid epoxy is sprayed on the surface of the aluminum tube and passed through a heating furnace, a liquid epoxy is applied to the surface of the aluminum tube while leaving a part of the solid agent.

However, since this method injects liquid epoxy onto the aluminum surface, the liquid epoxy is not applied to the aluminum surface with a certain thickness according to the spraying method, so that the adhesion is remarkably decreased, and the surface temperature of the aluminum tube when the liquid epoxy is dried in a heating furnace. Because of the constant maintenance, the production cost is high and high volatility liquid epoxy is a fire hazard.

In order to solve the above problems, the present invention is applied to a certain thickness of the gel (an intermediate state between the solid and liquid) between the aluminum tube and the resin coating to a certain thickness to increase the adhesiveness and the risk of fire aluminum tube and its manufacture It is an object to provide a method.

In addition, an object of the present invention is to provide an aluminum tube and a method of manufacturing the same by simplifying the adhesive coating process between the aluminum tube and the resin coating to lower the manufacturing cost and increase the work efficiency.

In addition, the present invention provides an aluminum tube and a method of manufacturing the same that can enhance the aesthetic appearance and can have excellent corrosion resistance and impact resistance.

In order to achieve the above object, the present invention provides a supplying step of supplying an aluminum tube, a high frequency preheating step of preheating the aluminum tube at a high frequency and an adhesive coating step of applying the surface of the preheated aluminum tube with a gel adhesive; It provides an aluminum tube manufacturing method comprising a resin coating step of coating with a resin on the aluminum tube applied with the adhesive.

The method may further include a stripping step of peeling off a portion of the coated aluminum tube with a laser cutter.

And, the adhesive coating step and the resin coating step is characterized in that it is carried out continuously in one mold housing.

And, further comprising a washing step of washing the surface of the aluminum tube before the preheating step.

In addition, the adhesive coating step is characterized in that the adhesive is extruded and fused on the surface of the aluminum tube while the aluminum tube is passed into the mold housing.

Aluminum tube according to the present invention and a method for manufacturing the same can be applied to a certain thickness of the gel adhesive between the aluminum pipe and the resin coating to increase the adhesiveness and reduce the risk of fire.

In addition, since the surface temperature of the aluminum pipe does not need to be kept constant, manufacturing costs can be lowered, and process time can be reduced by simplifying the adhesive coating process.

In addition, the adhesive coating and the resin coating to be made continuously in one mold to increase the adhesiveness, there is an effect that can simplify the work process.

Hereinafter, the present invention will be described in detail through preferred embodiments of the present invention shown in the accompanying drawings.

1 is a block diagram of a manufacturing method of an aluminum tube, Figure 2 is a flow chart of a manufacturing method of an aluminum tube, Figure 3 is a view showing a state in which an adhesive and a resin is coated on the aluminum tube of the present invention, Figure 4 It is sectional drawing of the inventor aluminum tube.

First, the aluminum tube 100 and the manufacturing method according to the present invention will be described in detail with reference to FIGS.

As shown in FIG. 2, the manufacturing method of the aluminum tube 100 according to the present invention includes a supply step S1 of supplying the aluminum tube 100 and a high frequency preheating step S3 of preheating the aluminum tube 100 at a high frequency. And a resin coating step (S4) for applying the surface of the preheated aluminum tube 100 with a gel adhesive 110 (see FIG. 3) and the aluminum tube 100 coated with the adhesive 110. 120, see FIG. 3) to the resin coating step (S5).

In addition, the manufacturing method of the aluminum tube 100 according to the present invention is a washing step (S2) of washing the aluminum tube 100 before the preheating step (S3) and the resin of the aluminum tube 100 coated with the resin (120) ( 120) may further include a stripping step (S6) to peel off a portion of the laser cutter (80).

First, in the supply step (S1) of supplying the aluminum tube 100 according to the present invention to prepare the aluminum tube 100 to be supplied in a wound state prepared by extrusion and drawing to the required length during operation. Then, the aluminum tube 100 prepared in a predetermined length is placed on the holder 10 and the aluminum tube 100 is supplied to the linear roller device 20 through the holder 10.

The linear roller device 20 straightens the unrolled aluminum tube 100 while passing through the holder 10 so as to easily apply the adhesive 110 (see FIG. 3) and coat the resin 120 (see FIG. 3).

In addition, in the cleaning step (S2) for surface treatment and cleaning in order to increase the adhesive force of the outer surface of the aluminum tube 100 straightened through a straight roller device 20 using a brush or the like as the cleaning device 30 to the aluminum tube The surface of 100 is roughened.

In addition, in the process of washing the foreign matter attached to the surface of the aluminum tube 100, the cleaning of the tube surface is facilitated by a detergent spray method using a cleaning agent having good washing and drying properties in the closed washing apparatus 30.

Meanwhile, in the high frequency preheating step S3 of preheating the surface of the aluminum tube 100, the adhesive force is increased by preheating the surface of the aluminum tube 100 before the adhesive 110 is applied and the drying is easy.

The preheating step is possible to a variety of preheating, in the present invention preheats the surface of the aluminum tube 100 through a high frequency heating method. The high frequency heating method heats the aluminum tube 100 by passing the aluminum tube 100 through an electromagnetic field of a high frequency generated by the high frequency heating device 40.

The high frequency heating method increases the adhesive strength with the adhesive 110 by applying a plurality of embossing treatments on the surface of the aluminum tube 100, and preheats the surface of the aluminum tube 100 to enhance the adhesive strength with the adhesive 110 and the adhesive 110. ) Can increase the dryness.

On the other hand, the adhesive coating step (S4) is the aluminum tube 100 preheated by the high-frequency heating method while the adhesive 110 is applied to the surface of the aluminum tube while passing through the adhesive extrusion device 50 and the mold housing 90. It is a process. Specifically, the adhesive 110 may be used a variety of adhesive 110, it is preferable to use the epoxy adhesive resin 110 in the present invention.

Such, epoxy adhesive 110 is easy to adjust the viscosity is excellent in workability and can be used to enhance the adhesive strength with iron, aluminum, polyamide and polycarbonate resin 120 and the like.

The adhesive extrusion device 50 is a device for extruding the adhesive 110 on the surface of the aluminum tube 100, as shown in Figure 3, the adhesive extrusion device 50 is the adhesive 110 is supplied from the outside The adhesive housing 52 accommodated therein and the adhesive 110 accommodated therein are discharge tubes 54 for discharging to the mold housing 90, and the discharge tubes 54 are connected to the mold housing 90.

The epoxy resin 120 is a solid adhesive is formed into a gel-type adhesive 110 through a heating wire (not shown) formed in the adhesive extrusion device 50.

The mold housing 90 is formed in a hollow inside a pipe so that the aluminum tube 100 preheated by the high frequency heating device 40 passes.

In addition, the mold housing 90 includes the adhesive 110 discharged through the discharge pipe 54 of the adhesive extrusion device 50 and the resin 120 discharged through the discharge pipe 64 of the resin extrusion device 60, respectively. A separate flow path (not shown) is formed so that the adhesive 110 and the resin 120 are sequentially formed on the surface of the aluminum tube 100 while the aluminum tube 100 passes through the mold housing 90. Extruded and fused to allow application and coating.

In addition, a vacuum device (not shown) is provided at the inlet 92 through which the aluminum tube 100 is introduced. When the aluminum tube 100 passes through the inlet portion 92, the surface of the aluminum tube 100 is formed in a vacuum state, and the vacuum aluminum tube 100 passes through the mold housing 90. The adhesive 110 and the resin 120 in the gel state are completely adsorbed on the surface of the aluminum tube 100 to be applied and coated.

As a result, the gel adhesive 110 is introduced into the mold housing 90 through the discharge tube 54, and the aluminum tube 100 is accommodated inside the mold housing 90 while passing through the mold housing 90. The adhesive 110 is applied while the gel adhesive 110 and the surface of the aluminum tube 100 are extruded and fused together.

The gel adhesive 110 contained in the mold housing 90 is coated with a uniform thickness on the aluminum surface while the aluminum tube 100 passes through the mold housing 90. This simple operation can improve the work process and work efficiency.

In addition, the surface temperature of the aluminum tube 100 may be adjusted to a temperature of 180 ° C. or higher and 500 ° C. or lower by the high frequency heating device 40 according to the type or characteristics of the adhesive 110.

On the other hand, the resin coating step (S5) is the aluminum tube 100 passes through the resin extrusion device 60 and the mold housing 90 while coating the resin 120 on the aluminum tube 100 coated with the adhesive 110. That's the process.

The resin extrusion device 60 is a discharge pipe 64 for discharging the resin housing 60 in which the resin 120 supplied from the outside is received and the resin 120 contained in the resin housing 60 to the mold housing 90. It is made, the discharge pipe 64 is connected to the mold housing (90).

Like the adhesive 110, the resin housing 60 also flows into the mold housing 90 through the discharge pipe 64, and the aluminum tube 100 passes through the mold housing 90 to form an adhesive ( The resin 120 is coated on the surface of the aluminum tube 100 to which the 110 is applied while being extruded and fused.

The resin 120 is to be coated by a method by extrusion using a resin 120 of polyamide, polyethylene, polypropylene, polyvinyl chloride selectively, to form a coating layer, the coated resin ( Among them, polyamide has low absorption, low density, thermal stability and light resistance, and it can work at 190-240 ℃ and polyethylene is the best high frequency insulating material.

In addition, polypropylene has high durability, heat resistance, easy processing, high tensile strength, insulation, and strong hydrothermal resistance, and polyvinyl chloride has high transparency and strength, which is useful for external friction and cutting.

Since the coating of the adhesive 110 and the coating of the resin 120 are continuously performed in one mold housing 90 as illustrated in FIG. 3, the working process may be simple and the working time may be shortened. In addition, the coating of the adhesive 110 and the coating of the resin 120 may be continuously performed in a single mold housing 90 within a short time, thereby improving adhesion between the adhesive 110 and the resin 120.

In addition, by selectively giving a color to the used resin 120, the resin 120 coating layer can be expressed in various colors, thereby improving external appearance.

On the other hand, in the cooling device 70 for cooling the surface of the resin coated aluminum tube 100, the adhesive 110 and the resin applied to the surface of the aluminum tube 100 while passing through the adhesive extrusion device 50 By compressing the tube in the state in which the resin 120 is coated by being compressed in the extrusion device 60 by using cooling water or freezing water, physical properties and adhesion of the product may be improved.

On the other hand, the stripping step (S6) is peeled off by partially peeling off a part of the coating of the resin 120 of the aluminum tube 100 with a laser cutter (80). Stripping step (S6) is a process that is taken in order to perform a quick process when working as a joint portion of each tube when connecting the resin 120 coated aluminum tube 100.

Figure 4 shows a cross-sectional view of the aluminum tube 100 of the present invention, Figure 4 (a) is an adhesive 110 on the surface of the aluminum tube 100 in the manufacturing method of the aluminum tube 100 of Figs. Is applied, and the resin 120 is extruded thereon to show the aluminum tube 100 to form a coating layer, and FIG. 4B shows the resin of the aluminum tube 100 with the laser cutting machine 80 of FIG. 120 shows the aluminum tube 100 in which a portion of the portion coated with the resin 120 is peeled off after cutting a portion of the coating.

The aluminum tube 100 according to the present invention may be used in various fields for the use of mechanical structures such as pipes used for air conditioners, pipes for fluid transport such as steam lines of factories, and distribution lines for ships.

Although the present invention has been described with reference to the preferred embodiments, one of ordinary skill in the art to which the present invention pertains may implement another embodiment of a modified form within the essential technical scope of the present invention. .

1 is a configuration diagram showing a method for manufacturing aluminum tube of the present invention.

Figure 2 is a flow chart showing a method for producing aluminum tube of the present invention.

Figure 3 is a view showing a state in which the adhesive and the resin is coated on the aluminum tube of the present invention.

4 is a cross-sectional view of the aluminum tube of the present invention.

* Description of the symbols for the main parts of the drawings *

10: holder 20: linear roller device

30: washing device 40: high frequency heating device

50: adhesive extrusion device 52: adhesive housing

54: discharge tube 60: resin extrusion device

62: resin housing 64: discharge pipe

70: cooling device 80: laser cutting device

90: mold housing 100: aluminum tube

110: adhesive 120: resin

Claims (2)

A supply step of supplying an aluminum tube; Washing the aluminum tube, washing step of roughening the surface of the aluminum tube; High frequency preheating step of preheating the aluminum tube at a high frequency, a plurality of embossing treatment on the surface of the aluminum tube; An adhesive coating step of applying the surface of the preheated aluminum tube with a gel adhesive; And, Resin coating step of coating with a resin on the aluminum tube applied with the adhesive, And around the surface of the aluminum tube to form a vacuum state such that the adhesive and the resin are applied and coated on the surface when the aluminum tube in the vacuum state passes. Aluminum tube manufactured by the manufacturing method according to claim 1.

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