JP3193369U - Printed material by sheet-fed printing that can simulate patterns by polishing and optical laser printing - Google Patents

Abstract

The present invention relates to a sheet-fed printing that can simulate a pattern by polishing and optical laser printing in which an optical laser pattern can be obtained in the same way without applying an arbitrary color to a metal film and applying an optical laser film. Provide prints by
A part of a metal film 30 is attached to one surface of a substrate 20 by a cold stamp technique in accordance with a sheet-fed automatic printing machine, and a general printing color coating layer 40 is formed on the surface of a part of the metal film 30. A colored layer is formed, and a predetermined amount of gold ink and non-absorbing ink are mixed and applied to the surface of the printing color coating layer 40 to form a polishing layer 50. A soft plate transfer is applied to the surface of the polishing layer 50. A pattern 52 having the same concave shape as the pattern formed by the optical laser film is formed to be raised by printing and the optical laser film.
[Selection] Figure 1

Description

  The present invention relates to a printed material that can simulate a pattern by sheet-fed printing using polishing and optical laser printing.

  In the field of printing, the optical laser film can be configured to have a specific special pattern (for example, star shape, refraction shape, stripe shape, ring shape, etc.), so it can be used in combination with the gorgeous colors of metal film materials. It is known that certain visual effects can be represented.

  However, although such a printing technique has been used for many years and can express a distinctive visual effect different from general printing, there are the following problems. That is, for example, the color of the metal-based film material is limited from the beginning or cannot be subjected to the multi-color development process, so that the color change is easily felt. Furthermore, if the metal-based film material and the optical laser film are not attached to the entire surface, the visual effect of so-called optical laser does not appear, so that resources such as these films may be wasted too much.

JP2011-5707

  The purpose of the present invention is to stick a part of the metal film to one side of the substrate to be printed, using the cold stamp technology, in accordance with the automatic sheet-fed printing machine. In addition, a general printing color coating layer is formed on the surface of a part of the metal film and colored, and a predetermined amount of gold ink and non-absorbing ink are mixed and applied to the surface of the printing color coating layer. Optical laser printing, which is formed and formed on the surface of the polishing layer by soft plate transfer printing and an optical laser film so that the same concave pattern as the optical laser film is raised. It is to provide a printed material by sheet-fed printing that can simulate a design.

  In order to achieve the above-mentioned object, a printed material according to claim 1 of the present invention is a partially metal film that is affixed to one side of a substrate by a cold stamp technique in accordance with a sheet-fed automatic printing machine. A general printing color coating layer is formed on the surface of the coating and colored, and a predetermined amount of gold ink and non-absorbing ink are mixed and applied to the surface of the printing color coating layer to form a polishing layer. On the surface, a plate that can be simulated by optical laser printing, which is formed so that the same concave pattern as the pattern by the optical laser film is raised by soft plate transfer printing and optical laser film It is comprised so that it may become a printed matter by leaf type printing.

  The printed material according to claim 2 of the present invention is configured such that the printed material has water absorption.

  The printed matter according to claim 3 of the present invention is configured such that a part of the metal film has various colors and designs.

  The printed matter according to claim 4 of the present invention is configured such that the printed color coating layer is formed as a die stamp portion having a desired pattern, pattern and color on a part of the metal film.

  The printed matter according to claim 5 of the present invention is configured such that the concave pattern formed on the surface of the gold ink layer is determined by the distribution and depth of the concave shape.

  The metal film according to claim 6 of the present invention is configured so that it can be painted to have any color.

  A part of metal film is pasted on one side of the substrate by cold stamping technology in accordance with a sheet-fed automatic printing machine, and a general printing color coating layer is formed on the surface of part of the metal film to add color. A predetermined amount of gold ink and non-absorbing ink are mixed and applied to the surface of the color coating layer to form a polishing layer. On the surface of the polishing layer, an optical laser film is formed by soft plate transfer printing and an optical laser film. It is configured to be a printed product by sheet-fed printing that can be simulated by optical laser printing, and is formed so as to make a pattern having the same concave shape as that of Therefore, it is possible to obtain a raised pattern by an optical laser in the same manner without applying an arbitrary color to the metal film and attaching an optical laser film. As described above, by using the new process and technology according to the present invention, it is possible to perform a color painting operation on a metal film in order to express a desired color and abundant colors of the metal film. Further, it is not necessary to attach an optical laser film to the completed printed matter, and it is possible to show a visual effect of a pattern by a similar desired optical laser. Therefore, the present invention has extremely high application value.

It is the schematic for demonstrating one Example of the printed matter of this invention. It is the schematic for demonstrating the conventional printed matter.

  FIG. 2 is a schematic diagram for explaining a conventional printed matter. In this figure, in order to make the printed material exhibit a unique effect such as a pattern by an optical laser, first, the metal film 11 is adhered to the entire surface of the printed material 10 (for example, paper material). This metallic film material 11 can be made into a very gorgeous single color having a unique color and gloss such as gold, silver, red, blue, yellow and green. Thereafter, white paint 12 is applied to one side of the metallic film material 11. Depending on the density of the white paint (that is, shading, light / dark, strength, etc.), a “die stamp” portion can be formed in a partial or area portion of the metallic film material 11.

  That is, the color of the metallic film material 11 where the color density of the white paint layer 12 is high is greatly reduced, and the color of the metal film material 11 where the color density is low is thinned by the white paint layer 12. In this way, a partial or regional “die stamp” effect appears.

  Next, in order to be able to print main printing contents such as desired characters, designs, patterns, colors, etc., a general color coating is performed on the white paint layer 12 to form a so-called print color coating layer 13. Thereafter, a gold ink layer 14 is applied on the printed color coating layer 13 in order to protect the printed color coating layer and to bring out an effect of brightening the color. Finally, the optical laser film 15 is pasted on the gold ink layer 14 to complete.

  Since the optical laser film 15 has a specific special pattern (for example, a star shape, a refractive shape, a stripe shape, a ring shape, etc.), the visual vision has a characteristic color in accordance with the gorgeous color of the metal film material 11. The effect can be expressed. However, although such printing technology has been used for many years and can express special visual effects, as described above, the color of the metal-based film material is limited from the beginning, or a multicolor development process is performed. It is easy to feel the color change. Furthermore, if the metal-based film material and the optical laser film are not attached to the entire surface, the visual effect of so-called optical laser does not appear, so that resources such as these films may be wasted too much.

  FIG. 1 is a schematic view for explaining one embodiment of a printed matter according to the present invention. As a result, the same printing effect as desired can be achieved using minimum resources and printing procedures, and various visual effects can be obtained by expressing various colors. It is possible to provide better printing products.

  Therefore, in the printed matter in FIG. 1, in accordance with a sheet-type automatic printing machine (not shown), first, a partial metal film 30 is pasted on one side of the substrate 20 by cold stamp technology, and then a general printing color is used. Color is applied to form the coating layer 40. In particular, the metal film 30 can be made into any color by applying printing inks of various colors. Thereafter, an appropriate amount of gold ink and non-absorbing ink are mixed and applied to the printing color coating layer 40 to form a polishing layer 50. Finally, a technique called soft plate transfer printing and an optical laser film (not shown) are provided. In combination, a pattern 52 having the same concave shape as the pattern formed by the optical laser film can be raised on the surface of the polishing layer 50.

  Thus, a desired visual effect can be obtained by utilizing the refracting action of light by the polishing layer 50 and the concave pattern 52 in accordance with the gorgeousness of the metal film 30 and various colors of the printed color coating layer 40. Is possible.

A sheet-fed automatic printing machine used here is a basic existing printing apparatus, and is called a “sheet-fed” automatic printing machine because the printing material 20 is put into the printing machine and printing operation is performed for each sheet. .

  Moreover, the pattern distribution of the concave-shaped part 52 and the depth of the concave part differ depending on the pattern of the optical laser film. As is well known, the optical laser film is a kind of film-like product, and a pattern (eg, star shape, refraction shape, stripe shape, ring shape, etc.) is die-stamped. When the polishing layer 50 is pressed onto the surface of the substrate by the soft plate transfer printing technique, the polishing layer 50 is formed by the concave pattern 52 corresponding to the pattern and the depth of the polishing layer.

  This optical laser film can be used repeatedly. That is, in the present invention, since an optical laser film having a desired design can be selected and printed, the design by the desired optical laser can be obtained without wasting the optical laser film. This has the best economic and environmental effects.

  As described above, by using the new process and technology according to the present invention, it is possible to perform a color painting operation on the metal film 30 in order to express a desired color and abundant colors of the metal film 30. Become. Further, it is not necessary to attach an optical laser film to the completed printed matter, and it is possible to show a visual effect of a pattern by a similar desired optical laser. Therefore, the present invention has extremely high application value.

  The embodiments shown in this specification are for the purpose of explaining, not limiting the present invention, and the spirit and scope of the present invention are not limited by such embodiments. . The scope of the present invention should be construed according to the claims for utility model registration, and all technologies within the equivalent scope should be construed as being included in the scope of rights of the present invention.

10.20: Printed material, 11: Metal film, 12: White paint, 13.40: Print color coating layer, 14: Gold ink layer, 15: Optical laser film, 30: Partial metal film, 50: Polishing Layer, 52: concave part

Claims (6)

  On one side of the substrate, a part of the metal film is pasted by a cold stamp technique in accordance with a sheet-fed automatic printing machine, and a color is formed by forming a general printing color coating layer on the surface of the part of the metal film. A predetermined amount of gold ink and a non-absorbing ink are mixed and applied to the surface of the printing color coating layer to form a polishing layer, and on the surface of the polishing layer, by a soft plate transfer printing and an optical laser film, A printed product by sheet-fed printing, which is configured so that a pattern having the same concave shape as the pattern by the optical laser film is raised, and the pattern can be simulated by optical laser printing.   The printed material according to claim 1, wherein the printed material has water absorption.   The printed matter according to claim 1, wherein the partial metal film has various colors and designs.   The printed matter according to any one of claims 1 to 3, wherein the printed color coating layer is formed as a die stamp portion having a desired pattern, pattern, and color on the partial metal film. .   The printed matter according to any one of claims 1 to 4, wherein the concave pattern formed on the surface of the polishing layer is determined by the distribution and depth of the concave shape.   It is a metal film used for the printed matter as described in any one of Claims 1-5, Comprising: The said metal film which is comprised so that it can be colored and can become arbitrary colors.