JP5495090B2 - Metal can body with foamed ink printing pattern - Google Patents

Description

The present invention relates to a metal can body in which a transparent resin film is provided on an outer surface of a can body portion of a metal can body via an adhesive layer.

Conventionally, as a metal can used for containers such as beverages, a bottomed cylindrical can body having an opening on one side formed by squeezing and ironing from a can body material such as a resin-coated metal plate or an aluminum alloy plate Inner surface painting and outer surface printing are carried out on seamless cans such as so-called two-piece cans, which are doubly wound on cans separately manufactured in the openings, and on low-carbon steel sheet sheets with tin or nickel plating After that, a three-piece can such as a welded can is prepared by cutting a can into a cylindrical shape, welding the can body seam, and double-tightening the bottom lid.

In such a metal can, the printed polyester film is adhered to the outer surface of the can body part to impart design properties, and the metal can is upgraded and differentiated.
Further, in recent years, it is known that a printing ink contains foamed microcapsules that foam by heating, thereby forming fine irregularities in the printed layer and diffusely reflecting light to create a matte feeling (for example, Patent Document 1).
Foam printing applied to the outer surface of the can body of such a metal can, when offset printing, by blending foamed microcapsules with part of the color ink of the design, the effect of obtaining the three-dimensional feeling and matte feeling of that part There is.
Japanese Patent Laid-Open No. 9-124043

However, although the metal can body described in Patent Document 1 has a three-dimensional effect by adhering a printing film using foamed ink to the can body, a foamed part pattern and a foamed part pattern are formed. A feeling of depth overlapping with a pattern that can be visually recognized through the resin film is not given.
The present invention has been made in view of such circumstances, and provides a metal can body that can give a three-dimensional feeling and a sense of depth to the outer surface of the can body of a seamless can, and can alert a consumer. Objective.

In order to achieve the above object, the metal can of the present invention is configured as follows.
(1) A metal can body in which a transparent resin film is provided on an outer surface of a can body portion of a metal can body having a can body outer surface film through an adhesive layer,
A first pattern printed pattern is formed on the inner surface side of the bonded transparent resin film,
On the outer surface side, a second pattern printing pattern is formed with foamed ink containing thermally expandable microcapsules having a shell wall softening temperature lower than the baking temperature ,
A transparent resin layer is further formed on the second pattern printed pattern by the foamed ink formed on the outer surface side of the transparent resin film,
A solid printing layer is further formed on the metal can side of the first pattern printed pattern formed on the inner surface side of the transparent resin film,
The adhesive layer is formed on the outer surface of the can body metal of the metal can body through the outer surface of the can body,
A printing label in which an adhesive layer is applied on the first pattern printing pattern and a solid printing layer,
Wound around the outer peripheral surface of the can body of a seamless can manufactured in advance,
After that, on the outer surface of the printed label, a second pattern printing pattern with foamed ink is printed on a curved surface,
It is characterized in that a transparent resin layer is formed thereon.
(2) In the above (1), a plurality of second pattern printing patterns by foamed ink are arranged at equal intervals in the circumferential direction of the can body.

The metal can body of the present invention can give a three-dimensional effect and a sense of depth to the outer surface of the can body part of the metal can, and can call attention to the consumer. It is particularly suitable when the metal can is a seamless can.

Next, the metal can body according to the embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a perspective view showing an appearance of a metal can body according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a laminated structure of a can body portion of the metal can body shown in FIG.

As shown in FIGS. 1 and 2, the metal can body 10 of the present embodiment is a bottomed cylindrical can body used for manufacturing a seamless can body, and squeezes and squeezes (DI) from the can body material. A transparent resin film 16 is provided on the outer surface of the bottomed cylindrical can body 11 having an opening on one side formed by a processing means such as processing via an adhesive layer 13.
A decorative pattern (first pattern printing pattern) 15 is formed on the transparent resin film 16 on the can body 11 side, and a solid printing layer 14 is further formed on the decorative pattern 15 according to circumstances.
And the 2nd pattern printing pattern 17 by the foaming ink containing a thermally expansible microcapsule is formed in the can body part 11 side of the transparent resin film 16 and the opposite side (outer surface direction of a can body part).
Further, the outer surface of the can body portion 11 is covered with a can body outer surface film . And on the can body outer surface film 11b, an adhesive layer 13, a solid printing layer 14, a decorative pattern (first pattern printing pattern) 15, a transparent resin film 16, a foamed ink layer (second pattern printing pattern) are sequentially formed. 17 and a finished varnish layer (transparent resin layer) 18 are formed.

Next, the material structure laminated | stacked on the can trunk | drum 11 of the metal can 10 of this embodiment is demonstrated below.
(1) Base material of can body part As a material of the can body metal 11a which is a base body constituting the can body part 11, various surface-treated steel plates, light metal plates such as aluminum, and the like can be used.
As the surface-treated steel sheet, a chromic acid-treated steel sheet such as TFS (tin-free steel), an aluminum-plated steel sheet, a galvanized steel sheet, a tin-plated steel sheet, a nickel-plated steel sheet, or the like can be used. If necessary, a surface treatment such as phosphate treatment or chromate treatment can be used.
As the light metal plate, an aluminum plate or an aluminum alloy plate can be used, and even if it is surface-treated with a chemical conversion film mainly composed of an oxide of zirconium or titanium or a composite film of polyacrylic acid-zirconium salt. Good.

(2) Can body outer surface film Moreover, as the can body part 11, the thing which laminated | stacked the can body outer surface film 11b on the surface of said surface-treated steel plate or a metal plate is used.
The resin film as the can body outer surface film 11b is provided when the metal can body 10 is a resin-coated seamless can body formed by processing a resin-coated metal plate. This has the effect of reducing waste solvent and reducing the amount of water used.
Generally, as the can body outer surface film 11b, a polyester resin film containing a white pigment such as titanium oxide is used in a steel can, and a transparent polyester resin film is used in an aluminum can.
As the resin to be laminated, a thermoplastic film having relatively high transparency and excellent workability and heat resistance, such as a polyester film, a nylon film, and a polypropylene film, is used.
A lamination method, a direct coating from a T-die, a method of heat laminating after once non-stretched film from a T-die, Ru is created by a general method such as a method for thermally laminating a biaxially oriented film.

(3) Adhesive layer In order to increase the adhesive force when the printing label 20 is laminated on the surface of the can body part 11, the adhesive layer 13 is provided on the can body outer surface film 11b.
Examples of the type of the adhesive layer 13 include a thermosetting type in which the bonding property between the outer surface 11b of the can body and the solid printing layer 14 is good, and heat such as polyurethane, polyester, polyester polyurethane, and epoxy can be used. A curable adhesive is preferably applied.
Moreover, it is also possible to use thermoplastic resins, such as a polyester-type resin, an ethylene vinyl acetate copolymer (EVA), and an ethylene methacrylate copolymer (EMMA).
In the case of a container to be retorted, the melting point of the thermoplastic resin is preferably equal to or higher than the retorting temperature.
The solvent used for the adhesive is not particularly limited, but ester solvents such as ethyl acetate and butyl acetate that are usually used for paints or adhesives, and ketones such as acetone, methyl ethyl ketone, methyl isobutyl ketone, and cyclohexanone. Aromatic hydrocarbons such as system solvents, toluene, and xylene.
The adhesive layer 13 is generally applied to the surface of the can body outer surface film 11b with a thickness of 1 to 6 μm from the viewpoint of adhesive strength or the like, or is applied to the surface of the solid print layer 14 of the print label 20 described later, Formed .

(4) Solid print layer The solid print layer 14 is formed as a base of a decorative pattern 15 described later .
The solid print layer 14 has an effect of making the decorative pattern 15 and the foamed ink layer (second pattern print pattern) 17 appear vividly. As the solid print layer 14, colors such as a white ink layer, a gold ink layer, and a silver ink layer can be arranged in accordance with the design of the decorative pattern 15 and the foamed ink layer (second pattern print pattern) 17. Among them, a white ink layer is preferable as a base having a large effect of making the design of the decorative pattern 15 and the foamed ink layer (second pattern printed pattern) 17 vivid. As the white ink layer, a known white ink can be used, and a titanium oxide pigment dispersed in a vehicle can be preferably used .

(5) Transparent resin film A transparent resin film 16 is provided outside the can body of the solid print layer 14.
The transparent resin film 16 has a role as a base on which the decorative pattern (first pattern printed pattern) 15 and the solid printed layer 14 are provided, and the long transparent resin film 16 has the decorative pattern 15 and the solid printed layer 14 formed thereon. A printing layer is provided to form a long printed label 20. After the long printed label 20 is coated with an adhesive on the side of the solid print layer 14, it is cut into a size for each can and covered on the can body. Examples of the transparent resin film 16 include thermoplastic film having relatively high transparency and excellent heat resistance, such as polyester film, nylon film, and polypropylene film, and unstretched film and uniaxially stretched film may also be used. However, since it is excellent in strength, a biaxially stretched film is preferable.
The transparent resin film 16 can be blended with a film compounding agent, for example, an antiblocking agent such as amorphous silica, various antistatic agents, lubricants, antioxidants, ultraviolet absorbers, and the like according to known formulations. .
For the transparent resin film 16, a known adhesion improving surface treatment such as corona treatment, plasma treatment or flame treatment can be used.
The thickness of the transparent resin film 16 is preferably 5 to 30 μm, and more preferably about 10 to 20 μm.

The transparent resin film 16 is provided with a decorative pattern 15 which is a first pattern printing pattern on one side (surface in the can body side direction).
Examples of the decorative pattern 15 include a printed pattern such as a design and a product name.
As a method of forming the decorative pattern 15, using a printing roller or an appropriate printing means such as a gravure method, a single color or a plurality of colors (for example, 2 to 10 colors) of color ink, and in the case of a plurality of colors, sequentially. For example, printing may be repeated.

As the color ink, it is preferable to use an ink made of a thermosetting polyurethane resin. As the printing method, in addition to the above gravure printing, various printing methods such as flexographic printing and offset printing can be appropriately selected. As a baking method, a general method such as thermosetting baking or UV curing baking is used.
In order to print beautiful characters and patterns with rich colors using a large number of colors, it is preferable to form a printing layer by gravure printing.
In the present embodiment, a print label 20 is a print of the decorative pattern 15 and the solid print layer 14 on the surface of the transparent resin film 16.
Further, when a hologram forming layer is formed on the surface of the decorative pattern 15 and a metal vapor deposition film is formed on the uneven surface of the hologram forming layer surface to form the printed label 20, an impact is achieved by the synergistic effect of the foamed ink layer of the present application and the hologram decoration. Strong decoration. At this time, the hologram forming layer on which the metal vapor-deposited layer is formed may be used as the printed label 20 by forming a multilayer film laminated with an adhesive by separating the printed film from the printed film. The hologram forming layer can be produced by laminating a hologram film or transferring a hologram pattern to a resin layer.

(6) The foamed ink layer printed label 20 is formed with a foamed ink layer 17 that is the second pattern printed pattern on the outer surface (the surface opposite to the side on which the decorative pattern 15 is formed).
Examples of the foamed ink layer 17 include printed patterns such as designs and product names.
In the case of a seamless can, the foamed ink layer 17 can be formed by offset printing using a resin relief plate or a waterless lithographic plate using a known curved surface printing machine. On the other hand, in the case of a three-piece can, it can be formed by sheet printing by offset printing on the outer surface side of the metal plate.
The thermally expandable microcapsule that is a foaming agent is preferably a volatile solvent such as isobutane, hexane, or heptane that is wrapped with a thermoplastic resin such as vinylidene chloride or a copolymer such as acrylonitrile. The softening temperature is preferably in the range of 100 to 200 ° C.
A predetermined amount of the foaming agent is blended and dispersed in the printing ink to form the foamed ink, printed on the outer surface of the can body, and then heated and baked together with the finishing varnish applied. By this heating, the shell wall of the thermally expandable microcapsule is softened, and the volatile solvent in the shell wall is vaporized and thermally expanded, so that the thermally expandable microcapsule expands. Thermally expandable microcapsules expand 3 to 6 times in diameter by heat baking. The microcapsules expanded in this way are solidified in the expanded spherical shape by cooling after baking, or are solidified in a crushed form through the removal of the volatile solvent, so that the unevenness of this portion becomes large. Although the unevenness is slightly reduced after the finishing varnish is provided, it remains large. The shell wall softening temperature of the thermally expandable microcapsule is preferably lower than the baking temperature.
The size of the heat-expandable microcapsule contained in the foamed ink before baking is preferably 1 to 30 μm in diameter and 3% by mass or less, particularly 0.5 to 1.5% by mass. In order to obtain suitable irregularities after foaming in the baking treatment, baking is preferably performed at 170 to 230 ° C. The surface roughness after applying the finishing varnish is preferably in the range of 0.5 to 3 μm in terms of arithmetic average roughness Ra measured with a stylus type roughness profile measuring instrument based on JIS B0601. If the lower limit of this range is not reached, the unevenness may be insufficient, and if it exceeds the upper limit, productivity and scratch resistance may be inferior.

(7) Finish varnish layer (transparent resin layer)
In order to provide lubricity to the outer surface of the seamless can on which the foamed ink layer 17 is formed, or to protect the foamed ink layer 17, a finished varnish layer 18 that is a transparent resin layer is formed on the entire outer surface of the seamless can. ing.
As the finishing varnish layer 18, it is preferable to use a transparent thermosetting resin containing a lubricant, which is basically a polyester resin, a polyacrylic resin, an epoxy resin or the like, and an amino resin such as a melamine resin or a phenol resin. Is added as a curing agent, and further, 0.1 to 3% by mass of a lubricant such as paraffin, polyethylene or silicon is used. The thickness of the finishing varnish layer 18 is 0.1 to 10 μm, preferably 0.5 to 5 μm.
The seamless can body on which the finish varnish layer 18 is formed is subjected to a baking process. The baking process is for curing the adhesive and completely adhering it to the seamless can body, and for removing the solvent contained in the finished varnish layer 18 to dry and cure, and in the foamed ink. It is preferable to heat at about 170 to 230 ° C. for about 0.5 to 2 minutes.

<Method for producing seamless can body>
Next, the manufacturing method of the seamless can body provided with said can body part structure is demonstrated.
(1) Production of printed label First, production of the printed label 20 laminated on the surface of the can body part will be described.
A printing method such as gravure printing on one side of the transparent resin film 16 while using the long transparent resin film 16 prepared as a coiled product in advance as a base material while rewinding and running the long transparent resin film 16 The decorative pattern 15 is printed at.

Next, on the surface of the transparent resin film 16 on which the decorative pattern 15 is printed, the solid print layer 14 is printed by gravure printing or roll coating to produce a printed label 20.
Thereafter, the adhesive layer 13 is applied on the solid print layer 14 of the print label 20 with a roll coater.
In addition, even if the printed label 20 with the adhesive layer produced as mentioned above is formed in one line (size of one can body) over the width direction of a long film. The thing given so that it may become a plurality of articles (size for a plurality of cans) may be sufficient.

(2) Manufacture of printed label-coated seamless cup A can of the long printed label 20 with the adhesive layer produced as described above is cut into a dimension whose width is slightly longer than the circumference of the can body. The printing label 20 for cans of vertical and horizontal sizes for each is prepared.
Next, the can body 11 of the seamless can manufactured in advance is heated, and the printed label 20 for cans is wound around the can body 11 to cover the outer peripheral surface of the can body 11.
At this time, both end portions in the circumferential direction of the printed label 20 for cans are overlapped and stacked to form an overlap portion, and pressed with a roll.

The conditions for coating the can printing label 20 on the can body 11 at that time are as follows: the speed is 10 to 300 m / min, the can body temperature is 140 ° C. to 200 ° C., and the pressure by the pressure roll is 250 to 750 N / min. cm.
As a more preferable condition, it is effective to set the speed to 150 m / min or more in order to increase productivity, and the can barrel temperature at the time of bonding is the thermosetting temperature or melt viscosity of the adhesive. Although it depends, it is set to 150-190 degreeC from a viewpoint of protecting a printing layer.
As for the pressure, a higher one is more effective for the adhesiveness, but considering the dimensional stability, about 500 N / cm is preferable.

(3) Manufacture of foamed ink printing seamless can The curved surface printing machine used for manufacture of the foamed ink printing seamless can of this application can use a well-known curved surface printing machine. By carrying out the second pattern printing pattern 17 by curved surface printing in this way, the first pattern printing pattern 15 and the second pattern printing pattern are in a random positional relationship in the circumferential direction of the can. It becomes decoration and a favorable effect is acquired.
The metal can body in which the foamed ink layer 17 and the finish varnish layer 18 are applied and formed on the surface of the printing label 20 coated on the surface of the can body 11 as described above is put into a baking oven, and the foamed ink layer 17 Foaming, finishing varnish layer 18 and adhesive layer 13 are baked and cured.
In addition, by making foamed ink transparent, it becomes possible to give unevenness | corrugation partially, without impairing the glitter of the printing label 20. FIG.
Moreover, it is also possible to mix | blend a color ink with foaming ink and to color a foamed ink layer, and it is also possible to divide not only one color but to make 2-8 multicolor printing. Furthermore, a three-dimensional effect and a unique matte feeling can be imparted by overprinting the foamed ink layer 1 to 3 times.

(Equal spacing in the circumferential direction of the second pattern printed pattern)
When the predetermined pattern of the second pattern print pattern 17 is arranged at equal intervals in the circumferential direction of the outer surface of the can body, the first pattern print pattern 15 and the second pattern print pattern 17 are randomly arranged in the circumferential direction of the can Even so, there is no risk that the specific part of the second pattern printed pattern 17 overlaps the specific part of the first pattern printed pattern 15, and there is no sense of incongruity between the two designs, and a favorable decoration effect is achieved. Can be obtained.
In addition, when the foamed ink figure is transparent, the foamed ink figure becomes a “hidden pattern”, and it is not visible from the front of the can body, but if the can body is tilted, the foamed ink figure appears to be raised. You can get a fresh decoration effect.
When a plurality of predetermined figures are arranged at equal intervals in the circumferential direction of the can body portion as the second pattern printing pattern formed by the foamed ink layer 17, the following can be performed.
That is, as shown in FIGS. 3 and 4, in a resin substrate (resin relief plate) that is a printing plate for forming a graphic of the second pattern printing pattern, a printable range portion (convex portion) and a designable range portion of the resin relief plate When the dimensional difference of (convex part) is a1 on the printing start side, a2 on the printing end side, and the print overlap width to the can body part is b (print overlap width 2 mm in FIG. 4),
A resin substrate is prepared so that the distance X between the non-printed portions formed between adjacent figures (stars) is X ≧ (a1 + a2−b). For example, as shown in FIG. Sheets and plate cylinders are set, and the second pattern printing pattern 17 is printed on the surface of the printed label-coated seamless can with a foamed ink. Depending on the curved surface printing machine, a single resin substrate may be set on the plate cylinder.

The printing start side dimension a1 and the printing end side dimension a2 of the printable range part (convex part) of the printing plate are values determined from the overlap width and the design dimension. For example, when the overlap width b is set to 2 mm, the printing start side dimension a1 and the printing end side dimension a2 are set to 4 mm, and the dimensional relationship is as described above on the resin substrate, the figure of the second pattern printing pattern (in FIG. 4) The space between the printed overlapped portions can be made the same as that of the second printed pattern by opening a space of 6 mm or more (indicated by a star shape).
On the other hand, if the interval between the figures of the second pattern printed pattern is less than 6 mm, the overlap width b is 6 mm, so that the distance between figures looks relatively narrow.

Thereafter, the vicinity of the can body opening is subjected to neck-in processing by a neck-in processing machine and flange processing by a flange processing machine, and a foamed ink printing seamless can is completed.
The surface finish varnish layer is not applied after the seamless can body is coated, but the adhesive layer 13 is applied after the foamed ink and finish varnish are applied and baked on the outer surface of the long printed label 20. It can also be created as a label coated with.
In addition, the pattern of the foamed ink layer 17 is randomly arranged without regularity to obtain a special decoration effect, or the foamed ink layer 17 is banded in the circumferential direction of the can body and the first pattern printed pattern 15 It is also possible to give the first pattern printed pattern 15 a matte feeling by superimposing them.

[Preparation of seamless cup]
MotobanAtsu 0.24 mm, temper T3-CA of a tin-free steel plate (metal chromium amount 120 mg / ^{m 2} as a surface treatment coating amount was chromium oxide content 15 mg / ^{m 2)} thickness on the side to become the inner surface of the can of A biaxially stretched polyethylene terephthalate / isophthalate copolymer film having a thickness of 20 μm, and a biaxially stretched polyethylene terephthalate / isophthalate copolymer film having a thickness of 15 μm containing 20% by mass of titanium oxide on the outer surface of the can. A resin-coated metal plate was obtained by heat-bonding both surfaces simultaneously at the melting point of the film and immediately cooling with water.
A glamor wax was uniformly applied to the resin-coated metal plate, then punched into a 144 mm diameter disc, and a thinned deep drawn recup having a diameter of 52 mm and a height of 112 mm was obtained by drawing.
Then, after performing doming molding according to a conventional method, the thinned deep drawn cup was heat-treated at 215 ° C. for 1 minute to remove film processing distortion and volatilize the lubricant. Next, the edge of the opening was cut off to obtain a seamless cup having a height of 106 mm.

[Preparation of printed label]
As a transparent resin film 16, one side of a transparent biaxially stretched polyethylene terephthalate film (PET film) having a thickness of 12 μm is subjected to corona treatment according to a conventional method, and a decorative pattern 15 having a thickness of 2 μm is printed on the corona treatment side by gravure printing. Baked.
On the decorative pattern 15 printed and baked, a solid print layer 14 of white ink containing 50% by mass of a titanium oxide pigment was provided with a gravure coater to a thickness of 1 μm and baked to prepare a printed label.
A polyester resin adhesive was provided on the white ink layer side of the produced printing label with a thickness of 5 μm using a gravure coater.

[Preparation of printed label-coated seamless cup]
The long printed label 20 with the adhesive layer produced above was cut into a size having a width of the can body height and a length having an overlap portion of 5 mm in addition to the circumference of the can body. A printed label-covered seamless cup was prepared by applying pressure to the outer surface of the seamless cup that had been heated to roll and bonding the overlapped portion.
[Fabric ink printing seamless can production]
A foamed ink layer 17 containing thermally expandable microcapsules was provided on the outer surface of the obtained printed label-coated seamless cup using a resin relief printing by offset curved printing. The particle diameter of the thermally expandable microcapsule before foaming in the used foamed ink has a distribution of 1 to 15 μm with a center value of 5 μm, the shell wall softening temperature is 180 ° C., and the blending amount in the transparent resin is 1.5 mass. %Met.
The foamed ink-printed figure is a star-shaped figure with a width of 21 mm, the printable range part of the resin relief printing plate is 164 mm, the print start side dimension a1 of the printable range part is 4 mm, and the print end side dimension a2 is 4 mm, the print overlap part Was set to 2 mm, and the interval between star-shaped figures was set to 6 mm, and a resin relief printing plate having six figures arranged thereon was produced.
The obtained resin relief plate is set on a plate cylinder as shown in FIG. 3, and foamed ink is printed on the outer surface of the can body by a curved surface printing machine. Further, a polyesteramino finish varnish is applied on the outer surface to a thickness of 3 μm. Baking at 40 ° C. for 40 seconds was performed in an oven. Next, the opening side of the produced cup was necked and then flanged to produce a foamed ink printing seamless can.
The foamed ink layer portion of the resulting foamed ink-printed seamless can was measured from the finished varnish surface. The arithmetic average roughness Ra was 1.5 μm, and the distance between the star-shaped figures across the overlap portion was 6 mm. , 6 star-shaped figures of foamed ink are arranged at equal intervals on the outer surface of the can body, and the unevenness of the star-shaped figures is slightly raised depending on the viewing angle, and the first pattern printed pattern is glossy It was a metal can body with a special effect.

The metal can body of the present invention can give a three-dimensional feeling and a sense of depth to the outer surface of the can body portion of the seamless can, which can draw attention to consumers, and is highly industrially applicable.

It is a perspective view which shows the metal can body external appearance of one Embodiment which concerns on this invention. It is sectional drawing which shows the laminated structure of the can body part of the metal can body shown in FIG. It is explanatory drawing of the printing plate in the case of arrange | positioning two or more 2nd pattern printing patterns at equal intervals in the can trunk | drum circumferential direction. It is explanatory drawing of the printing space | interval when arrange | positioning two or more 2nd pattern printing patterns at equal intervals in the can trunk | drum circumferential direction.

Explanation of symbols

10: Metal can body 11: Can body portion 11a: Base material of can body portion (can body metal)
11b: Resin film (can body outer surface film)
13: Adhesive layer 14: Solid print layer 15: Decoration pattern (first pattern print pattern)
16: Transparent resin film 17: Foamed ink layer (second pattern printing pattern)
18: Finish varnish layer (transparent resin layer)
20: Print label

Claims (2)

A metal can body comprising a transparent resin film on an outer surface of a can body portion of a metal can body having a can body outer surface film through an adhesive layer,
A first pattern printed pattern is formed on the inner surface side of the bonded transparent resin film,
On the outer surface side, a second pattern printing pattern is formed with foamed ink containing thermally expandable microcapsules having a shell wall softening temperature lower than the baking temperature ,
A transparent resin layer is further formed on the second pattern printed pattern by the foamed ink formed on the outer surface side of the transparent resin film,
A solid printing layer is further formed on the metal can side of the first pattern printed pattern formed on the inner surface side of the transparent resin film,
The adhesive layer is formed on the outer surface of the can body metal of the metal can body through the outer surface of the can body,
A printing label in which an adhesive layer is applied on the first pattern printing pattern and a solid printing layer,
Wound around the outer peripheral surface of the can body of a seamless can manufactured in advance,
After that, on the outer surface of the printed label, a second pattern printing pattern with foamed ink is printed on a curved surface,
A metal can having a transparent resin layer formed thereon. 2. The metal can body according to claim 1 , wherein a plurality of second pattern print patterns by the foamed ink are arranged at equal intervals in a circumferential direction of the can body.