KR100192843B1 - Method for coating sheet with polyester for welding - Google Patents

Abstract

The present invention relates to a method for laminating a polyester resin film on both sides of a metal sheet, comprising the steps of: sticking the metal sheet in a strip shape while leaving the welded portion at the time of steel stripping and then tin plating, nickel plating, or nickel plating and tin plating; The present invention relates to a method for producing a coated metal plate for a polyester resin film for use in a welding process and a method for producing the same. The method comprises the steps of heating a metal plate subjected to processes such as degreasing, pickling and drying at 150 to 260 캜, The polyester resin film coated with the adhesive is cut out of the welded portion at the time of pipe cutting, and the surface coated with the adhesive is adhered to the metal plate so as to have a strip shape. After heating to 180 to 250 ° C again, A polyester resin film is adhered in a strip shape, and the obtained polyester resin film is covered with a metal sheet Nickel or tin plating or nickel and tin plating is performed to improve the weldability of the metal plate 1. The metal plate of the present invention has a structure in which an adhesive is applied to both surfaces of the metal plate 1, And a coating layer 2 made of nickel or tin or nickel and tin is formed on the welded portion when the resin film layer 3 is formed by adhering the applied band-shaped polyester resin film.

Description

Polyester resin film coated metal plate for welder and method of manufacturing the same

More particularly, the present invention relates to a laminate metal plate for use in manufacturing a can and a method of manufacturing the same, and more particularly to a laminate metal plate for welding a can, And then performing tin plating, nickel plating or nickel plating and tin plating for the welded pipe, and a method of manufacturing the same.

As shown in FIG. 1, a conventional method for producing a polyester resin film-coated metal plate for a welder includes coating and printing with tin or nickel and tin on both surfaces of a metal plate 1, And a method of forming a resin film layer 3 by bonding a strip-shaped polyester resin film while leaving only a welded portion at the time of tube manufacturing after forming the plating layer 2 by plating the tin.

However, in order to provide the weldability in the production of the metal plate for welding pipe by such a method, the entire metal plate must be plated with tin or the like, so that the remainder except the welded portion, that is, unnecessary plating of the coating and printing portion or the polyester resin film- An enormous amount of the address or nickel is wasted, and the manufacturing cost is increased.

In addition, in the case of a metal plate coated with a polyester resin film for a two-piece can, a separate plumbing facility other than the existing plumbing facility is required, and a separate printing process is required after the plumbing. In addition, expensive additives have to be used for securing the heat adhesion and processability, so that there is a problem that the production cost is increased due to a high price of the polyester resin film.

The present invention has been made in order to solve the above-described problems of the prior art, and it is an object of the present invention to provide a method of manufacturing a semiconductor device, Which is capable of reducing loss and suppressing the discharge of environmental pollutants to improve the working environment, and a method for manufacturing the same.

In order to attain the above object, the present invention provides a method for producing a polyester resin film, which comprises heating a metal sheet subjected to processes such as degreasing, pickling, and drying to 150 to 260 캜, The surface to which the adhesive is applied faces the metal plate and is adhered in a strip shape. The adhesive tape is heated again to 180 to 250 DEG C and then quenched or gradually cooled to leave a welded portion in the tubing to adhere the polyester resin film in strip form. There is provided a method for manufacturing a polyester resin film clad metal sheet for a welder in which nickel or tin plating or nickel and tin plating is performed to improve the weldability of the resin film-clad metal sheet as a welded portion at the time of steel making.

In addition, in the present invention, a resin film layer is formed by adhering a strip-shaped polyester resin film coated with an adhesive on one side of a metal plate, both sides of which are cut out of the welded portion, and nickel or tin or nickel and tin are plated And a plated layer formed on the surface of the metal foil.

1 is a cross-sectional view showing the structure of a polyester resin film coated metal plate for a welder manufactured by a conventional technique;

FIG. 2 is a cross-sectional view showing the structure of a polyester resin film coated metal plate for a welder manufactured according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

1: metal plate 2: plated layer

3: resin film layer

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

In the method for producing a polyester resin film coated metal sheet for a welder according to an aspect of the present invention, as shown in FIG. 2, a metal plate 1 having been subjected to processes such as degreasing, pickling and drying is heated to 150 to 260 캜, The surface to which the adhesive is applied on one side facing the metal plate 1 is adhered to both sides of the metal plate in a strip shape to form the resin film layer 3 and then heated again to 180 to 250 캜 and then quenched or gradually cooled, A polyester resin film covered metal plate in which a polyester resin film is adhered to both sides of the metal plate 1 in a belt shape is obtained while leaving only the part to be welded at the time of pipe making, and the polyester resin film of the polyester resin film- In order to impart weldability to the unbonded portion, that is, the portion to be welded at the time of pipe-making, nickel having an adhesion amount of 400 to 500 mg / m 2 is plated, and then a tin of 0.6 to 2.5 mg / Or amount of deposition of plated nickel 0.2~2.0g / ㎡ to form a coating layer (2).

According to another aspect of the present invention, there is provided a method of manufacturing a metal film, comprising the steps of: forming a metal film on a surface of a metal plate, wherein only a polyester resin film is adhered without a plating layer in a strip shape to form a resin film layer; A polyester resin film coated metal plate having a welded portion having a plating layer 2 for improving the weldability without being bonded and formed in a strip shape is obtained.

In the polyester resin film adhered to the metal plate side (inner side) which is the inner surface of the tube at the time of adhering the polyester resin film of the metal plate, the urethane adhesive layer is applied to the surface to be adhered to the metal plate at 0.5 to 3.5 탆, A polyester resin film adhered to the metal plate side (outer surface) serving as the outer surface of the tube has a gravure printing layer on its surface to be bonded to the metal plate, a urethane or epoxy adhesive layer having a thickness of 0.5 to 3.5 m thereon, And a lubricating layer of 2 to 5 mu m containing silicone particles or a creel coating for ensuring lubricity.

Further, in order to provide weldability to the portion where the polyester resin film of the polyester resin film-covered metal sheet is not adhered, that is, the portion to be welded at the time of pipe-making, nickel is plated at an adhesion amount of 40 to 500 mg / M 2 of tin or a coating amount of tin of 0.8 to 2.5 g / m 2 or plating nickel of an adhesion amount of 0.2 to 2.0 g / m 2 to form a plating layer 2.

In this manner, a polyester resin film coated metal plate for a welded pipe excellent in weldability and excellent in preservability against food can be obtained.

In addition, in the present invention, in the production of the polyester resin film coated metal sheet, the metal plate may be coated with a polyester resin film and then subjected to a process such as pickling, washing and degreasing to facilitate plating before plating.

Hereinafter, the present invention will be described with reference to examples.

[Example 1]

The metal plate subjected to the processes such as degreasing, pickling, and drying was heated to 150 to 200 ° C, and then a strip-shaped polyester resin film cut by a welded portion at the time of steel making was adhered to both sides of the metal plate using a laminate roll. The inner surface of the metal plate (the film to be adhered to the inner surface of the metal tube is coated with a urethane adhesive in a thickness of 0.5 to 2 占 퐉 on the surface to be adhered to the metal plate and the film to be adhered to the outer surface A urethane adhesive layer having a thickness of 0.5 to 3.0 占 퐉 and containing a white hardening agent on the gravure printing layer, and a lubricating layer having a thickness of 2 to 5 占 퐉 including silicon particles on the opposite surface.

After the polyester resin film was stuck to both sides in a strip shape, the metal plate was heated again to 180 to 220 캜 and then quenched to obtain a polyester resin film coated metal plate. In order to impart weldability to the upper metal plate, 0.2 to 0.5 g / m 2 of nickel and 1.0 to g / m 2 of tin were plated to form a plated layer.

[Example 2]

The biaxially stretched polyester film having thermal adhesiveness to the inner and outer surfaces of the metal sheet was cut out by a welded portion as in Example 1, followed by the use of a laminate roll And thermally adhered in a strip shape. The polyester resin film used for the inner surface has a melting point of 210 to 230 캜 and a thickness of 15 to 25 탆. The polyester resin film used for the outer surface includes a titanium oxide dye for imparting white color, and a urethane adhesive is applied to the opposite surface to be adhered to the metal plate. On the upper surface, a poly It is made of an ester resin film. A polyester resin film was thermally adhered to the inner and outer surfaces of the metal sheet and then quenched in water at 80 DEG C or lower within a few seconds to obtain a polyester resin film coated metal sheet. And then plated with 0.8 to 1.2 g / m < 2 > of tin in order to impart weldability to the upper metal plate.

[Example 3]

A metal plate subjected to processes such as degreasing, pickling, and drying is heated to 220 to 260 ° C., and a biaxially stretched polyester film having a two-layer structure is cut out to the inner and outer surfaces of the metal plate by a weld portion at the time of steel making. And then rapidly cooled in water at 80 DEG C or less within a few seconds to obtain a polyester resin film coated metal plate. The polyester resin film used for the inner surface of the metal sheet (the inner surface of the pipe for the tube making) has a two-layer structure, the melting point of the film on the surface bonded to the metal sheet is 180 to 200 ° C, 250 ° C, and contains a titanium oxide pigment for white coloring, a urethane-based adhesive layer, a gravure printing layer, and a polyester resin film having a clear coating on the outer surface thereof. Nickel of 40 to 80 mg / m < 2 > was plated on the thus obtained polyester resin film-clad metal sheet to give weldability at the time of plating, and a coating layer was formed thereon by plating the tin of 0.6 to 2.5 g / .

[Example 4]

A metal plate subjected to processes such as degreasing, washing, and drying was coated with a polyester resin film in the same manner as in Example 1, and nickel and tin plating were performed as in Example 1 after pickling and washing with water.

[Example 5]

A metal plate subjected to processes such as degreasing, pickling, and drying was coated with a polyester resin film in the same manner as in Example 2, and then tin-plated as in Example 2 through pickling and water washing.

[Example 6]

A metal plate subjected to processes such as degreasing, pickling, and drying was coated with a polyester resin film in the same manner as in Example 3, followed by degreasing and pickling, and nickel and tin plating were carried out as in Example 3.

Therefore, according to the polyester resin film-covered metal sheet obtained by the present invention, excellent weldability can be ensured even if tin plating or nickel and tin are not plated on the portion where the polyester resin film other than the welded portion is adhered, so that a considerable amount of tin and nickel It is possible to save manufacturing cost, omitting painting and printing process, and thus it is possible to suppress the discharge of environmental pollutants such as reduction of loss of excessive heat energy and improvement of working environment, It is possible to manufacture a three-piece can, but in the conventional case, it is difficult to increase the thickness of the plating layer by plating the entire metal plate, which is difficult because of economical reasons, so that the plating layer is made as thin as possible, When used in areas that can form, rust can occur But, to useful inventions such as the present invention, because the welding portion is thicker by plating only even impact on the production cost rises in less can form a thick plating layer improves the corrosion resistance, forming a plating layer.

Claims (2)

A metal plate having been subjected to processes such as degreasing, pickling, and drying is heated to 150 to 260 ° C, and then a polyester resin film having an adhesive applied on one side is cut out of the welded portion at the time of pipe making, And then heated to 180 to 250 DEG C again and then quenched to adhere the polyester resin film in a strip shape while leaving only the welded portion in the tube, and the welded portion of the obtained polyester resin film- Wherein the plating layer is formed by performing nickel or tin plating or nickel and tin plating to improve the surface roughness of the metal plate. On both sides of the metal plate 1, a resin film layer 3 is formed by adhering a strip-shaped polyester resin film coated with an adhesive agent on one side of the welded portion of the metal plate 1, and nickel or tin or nickel and tin (2) formed by plating on the surface of the metal foil.