JPH1178204A - Film printed matter for packaging and printing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide metal gloss printed matter excellent in hue by a printing method. SOLUTION: In gravure printed matter using ink 2 containing an aluminum powder in a packaging plastic film 1, the ink 2 containing the aluminum powder is printed in an almost mesh like printing shape and ink 5 having a color same or akin to that of the ink containing the aluminum powder is pref. printed on at least a part other than the ink containing the aluminum powder.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gravure printing method and a printed product on a plastic film for packaging using an ink containing aluminum powder.

[0002]

2. Description of the Related Art In the case of products such as audio / video cassette tapes and MDs whose shapes are standardized and cannot be differentiated by shape, sales are often influenced by the package design. is there. In the printing of the package, there is a method of using aluminum when it is desired to express metallic luster. Broadly speaking, there are two methods of vapor deposition and printing, but aluminum vapor deposition is expensive and is inexpensive like the above products. In contrast, printing using an ink containing aluminum powder can keep costs low. FIG. 1 shows a printed matter formed by a printing method using a conventional aluminum powder-containing ink, wherein (a) is a plan view and (b) is an enlarged sectional view. For example, an ink layer 2 in which aluminum powder (granular, preferably scaly) 3 is dispersed in a color ink 4 (a vehicle containing a coloring agent such as a pigment and a dye, a resin and a solvent) on the top or bottom surface of the plastic film 1 for packaging. Is a printed matter obtained by printing by a printing method such as gravure printing. However, in the printed matter by such a printing method, the color tone cannot be adjusted well, and the print finish often differs from the design image.

[0003]

According to the current printing method of aluminum powder-containing ink, a mixture of aluminum powder in the ink is solid-coated in an arbitrary printing range.
In this method, in order to increase the metallic luster, the amount of aluminum powder in the ink had to be increased, whereby the components of the ink were relatively reduced and the color tone became whitish. Further, when trying to increase the color tone, the ink component becomes relatively large, and the metallic gloss is lost. For example, the balance between the metallic gloss and the color tone cannot be balanced.

[0004]

According to the present invention, printing is performed by using a mesh-shaped printing plate so that the shape of the aluminum powder-containing ink at the time of printing finish is meshed, and the size of the mesh is changed. By doing so, the amount of aluminum powder during printing is adjusted to adjust the metallic luster. The present invention preferably comprises
The color tone is adjusted by printing a color ink of the same color, a similar color, or a different color as that used for the aluminum ink on a portion other than the aluminum powder-containing ink, and adjusting the density of the color ink. However, in the case of different colors, there is a slight problem in that the types of inks are increased. That is, the present invention provides a gravure printed material using an aluminum powder-containing ink in a plastic film for packaging, wherein the printed shape of the aluminum powder-containing ink is printed so as to be substantially reticulated. Preferably, at least a part other than the aluminum-containing ink is printed with the same color, a similar color, or a different color of the ink used for the aluminum-containing ink. The present invention also provides
In a gravure printing using an aluminum powder-containing ink in a plastic film for packaging, a printing method is provided in which the printing shape of the aluminum powder-containing ink is printed so as to be substantially mesh-like. A method of printing the same color, a similar color, or a different color as that used for the aluminum-containing ink on at least a portion other than the mesh-shaped printing portion before or after printing with the ink.

[0005]

According to the present invention, by applying an aluminum powder-containing ink in a mesh form, the metallic luster can be individually adjusted according to the size of the mesh, and the color tone can be individually adjusted according to the density of the color ink other than the aluminum powder-containing ink. As a result, an arbitrary color tone and gloss can be obtained.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention is carried out by a printing method, and gravure printing is particularly suitable in terms of work efficiency.
A target to which such a printing ink is applied is a plastic film such as a polyethylene, a polypropylene, and a polyester film. Examples of the aluminum powder that can be used in the present invention include granular (round, amorphous, and square) powders, but flake-like aluminum powder that can exhibit sufficient hiding power with a small amount is preferable. The average particle size of the aluminum powder is preferably 10 to 20 μm in particle size, and the average particle size in a flake-like shape when viewed on a plane is preferably 10 to 20 μm. If it is too small, the hiding power is reduced, and if it is too large, the uniformity of the ink is impaired. In the case of flakes, the plane of the aluminum particles tends to be naturally oriented parallel to the printing surface due to the orientation force generated during printing and drying. The aluminum powder that can be used in the present invention is commercially available, or in the case of a scale, aluminum is vacuum-deposited to form a thin film and then pulverized (aluminum flake method). It can be produced by a method such as crushing flat with a small amount of a solvent with a ball mill or the like to form an aluminum-containing paste converted into flakes.

Next, the proportion of the aluminum powder to be mixed with the ink is as high as 10% by weight or more based on the gravure printing ink (= ink base material) excluding the solvent. Add to concentration. When aluminum powder is added in excess of 40% by weight, not only does the metallic feel not change, but also
Silver color prevails, lowering the color density and color balance, causing color unevenness, and further reducing the adhesion to the plastic substrate.

[0008] Among the components constituting the gravure printing ink of the present invention, components having a general composition other than the aluminum powder can be used as in the prior art. For example,
For polyamide-based inks and urethane-based inks, colorants (color pigments or dyes), media (coloring agents), and additives
The gravure printing ink can be obtained by mixing aluminum powder. As a method for producing an ink, a colorant and a medium (excluding a solvent) are used rather than simply mixing the components.
However, the minimum amount of solvent necessary for kneading is necessary) and the additives are kneaded to form a paste, and the aluminum powder is directly or similarly pasted and mixed, and then kneaded. Alternatively, it is preferable to adopt a method of sufficiently wrapping with an ink base material, and then adding and mixing an amount of a solvent necessary for obtaining a viscosity required for the gravure printing ink. Next, examples of the present invention will be described.

[0009]

【Example】

Example 1 A printed matter having the structure shown in FIG. 2 was manufactured by a gravure printing method. The printed matter which consists of what printed the ink layer 2 which disperse | distributed in the color ink 4 which disperse | distributed the aluminum powder 3 on the upper surface or the bottom surface of the plastic film 1 for packing by gravure printing is shown. In this case, the ink layer 2 containing the aluminum powder is applied in a mesh form. The compositions of the film, printing plate, aluminum powder-containing ink and color ink used are as follows. Film: OWCS # 20 (biaxially-extended polypropylene) manufactured by Tocelo Co., Ltd. Printing plate: pitch 175 lines / inch, plate depth 30 μm Mesh diameters of about 100 μm, 80 μm, 60 μm, and 40 μm (aluminum powder-containing ink area) 80 μm ( Color ink area) Aluminum powder-containing ink: C103 manufactured by Toyo Ink Mfg. Co., Ltd.
MT39 indigo + C103 MT83 purple and aluminum paste 63
-359T (particle diameter: 20 to 30 μm) mixed with 14 wt% Aluminum ink containing aluminum powder was printed in a mesh pattern as shown in FIG. 2 and the change in the size of the mesh was visually confirmed by a change in metallic gloss. Was performed, and it was confirmed that a change in metallic luster can be obtained by changing the size of the mesh. Table 1 shows the results. From the viewpoint of gloss, it is better that the printing area of the ink containing aluminum powder is as large as possible. However, it is understood that an appropriate area ratio is necessary because the above-described problem occurs. It can also be seen that if the area ratio is too small, it is difficult to produce metallic luster.

[0010]

[Table 1]

Example 2 After the aluminum powder-containing ink was printed in a mesh pattern as shown in FIG. 2, the same color ink layer 5 was further printed as shown in FIG. The compositions of the printing plate, aluminum powder-containing ink, and color ink used in this example are as follows. Film: OWCS # 20 (biaxially-extended polypropylene) manufactured by Tocelo Co., Ltd. Printing plate: pitch 175 lines / inch, plate depth 30 μm, mesh diameter about 80 μm Aluminum powder-containing ink: C103 manufactured by Toyo Ink Manufacturing Co., Ltd.
MT39 indigo + C103 MT83 purple and aluminum paste 63
14% by weight of -359T (particle diameter: 20 to 30 μm) Color ink: C103MT39 indigo manufactured by Toyo Ink Mfg. Co., Ltd. + C103MT83 5% by weight of medium in purple and 10% by weight
%, 20 wt%, and 30 wt% are mixed. Here, the term “medium” refers to a transparent resin or other component obtained by removing a coloring material and a solvent from a color ink, and is a commercially available material that is formulated to exhibit printability. . The same color ink as that used for the above aluminum powder-containing ink is printed on parts other than the aluminum powder-containing ink as shown in Fig. 3 to visually check the color tone change, and it is possible to adjust the color tone change by shading the color ink I was able to confirm that. Table 2 shows the results.

[0012]

[Table 2]

From the above results, if the amount of added media is too small, the opacity is increased and the metallic luster is reduced. If the amount is too large, the transparency is increased, but the color component is relatively reduced, so that the color becomes lighter. Therefore, in this example, the amount of addition of the medium is about 5%, but there is no particular upper limit because the upper limit depends on the required color tone, but in an application in which the mesh is judged to impair the design, the amount in which the mesh is clearly visible is determined. Limit.

Example 3 In Example 2, a solid color ink was first printed, and then a grid-like aluminum powder-containing ink was printed. In each case, a clear color tone was observed. This example is preferable in applications where the mesh is not a problem.

[0015]

According to the conventional solid printing method in which aluminum powder is mixed, when the metallic luster is improved by increasing the amount of aluminum powder in the ink, the components of the ink are relatively reduced and the color tone becomes whitish. Conversely, when trying to darken the color tone, the ink component became relatively large and the metallic gloss was lost, and the metallic gloss and the color tone could not be well balanced. It is possible to adjust the color tone change by shading, especially when printing the same color or the same color ink as the one used for the aluminum-containing ink on the part other than the aluminum-containing ink,
The metallic luster and color are simultaneously emphasized to enable excellent color tones. When a different color ink is used, printing of another color is possible.

[Brief description of the drawings]

FIG. 1 shows a printed material formed by a printing method using a conventional aluminum powder-containing ink, wherein (a) is a plan view and (b) is an enlarged sectional view.

FIG. 2 shows a printed matter formed by a printing method using the aluminum powder-containing ink of the present invention, wherein (a) is a plan view and (b) is an enlarged sectional view.

FIG. 3 shows a printed material formed by a printing method using the aluminum powder-containing ink of the present invention and a color ink of the same color, wherein (a) is a plan view and (b) is an enlarged sectional view.

[Explanation of symbols]

 Reference Signs List 1 plastic film 2 ink layer 3 aluminum powder 4 color ink 5 same color ink layer

Claims (4)

[Claims]
1. 1. A gravure printed material using an aluminum powder-containing ink in a plastic film for packaging, wherein the printed shape of the aluminum powder-containing ink is printed so as to be substantially mesh-like.
2. 2. The printed matter according to claim 1, wherein at least a portion other than the aluminum-containing ink is printed with the same color, a similar color, or a different color as that used for the aluminum-containing ink.
3. 3. A gravure printing method using an aluminum powder-containing ink on a plastic film for packaging, wherein the printing is performed so that the printing shape of the aluminum powder-containing ink is substantially mesh-like.
4. 4. Before or after printing with an aluminum-containing ink, an ink of the same color, a similar color or a different color as that used for the aluminum-containing ink is printed on at least a portion other than the mesh-shaped printing portion. The printing method according to claim 3.