JP2008051855A - Stereo printed matter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a stereo printed matter that has a lens function on its surface without using a lens sheet, has excellent stereoscopic quality and is high in production efficiency. <P>SOLUTION: The stereo printed matter is formed from a lamination body in which striped liquid-repellant resin layers of a predetermined width and striped stereo image original layers of a predetermined width, composed of right and left eye original images, are alternately laminated on a paper base material layer in many lines in a widthwise direction and in which a striped transparent resin layer for a lens is bonded on the stereo image original images so as to project upward in an arcuate shape. The transparent resin layer for the lens is formed by laminating the liquid-repellant resin layers and stereo image original image layers onto the paper base material layer, then applying an ultraviolet curable coating liquid to its entire surface and curing this coating liquid by emitting ultraviolet rays while the coating liquid on the stereo image original image layer is accumulated in heap by repelling the coating liquid on the liquid-repellant resin layer. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a stereo print.

In general, a stereo print is a thermo-compression method or a lens sheet having engineering elements such as a fine Fresnel lens, a lenticular lens, or a prism lens prepared in a separate process and a printed base material on which a stereo image original image layer is printed There are many things that are laminated via an adhesive, but in the case of the thermocompression bonding method, there is a problem that the lens sheet is stretched by the heat at the time of thermocompression bonding, resulting in inferior three-dimensional quality, There is a problem in that the alignment between the stereo image original image layer and the lens sheet is not good, and the stereoscopic quality is similarly inferior. A stereo print that has improved these problems has been proposed (see, for example, Patent Document 1).
JP 2003-191666 A

  However, the proposed stereo printed material also uses a lenticular lens sheet prepared in a separate process, and each production process is complicated and production efficiency is poor.

  An object of the present invention is to provide a stereo print that does not use a lens sheet, has a lens function on the surface, has an excellent three-dimensional quality, and has high production efficiency.

  The invention according to claim 1 of the present invention is a stereo comprising a stripe-shaped liquid-repellent resin layer having a predetermined width on one surface of a paper base layer, and a right-eye original image and a left-eye original image having a predetermined width. It is composed of a laminate in which a plurality of image original image layers are alternately laminated in the width direction, and a stripe-shaped transparent resin layer for a lens protruding in an arc shape with the same width on the stereo image original image layer is laminated. It is a featured stereo print.

  In the invention according to claim 2 of the present invention, a stereo image original image layer composed of a stripe-shaped original image for the right eye and an original image for the left eye having a predetermined width is laminated on one surface of the transparent base layer in the width direction at a predetermined pitch. A stripe-shaped liquid repellent resin layer having a predetermined width on the other surface, and a transparent resin layer for the lens having a predetermined width protruding in an arc shape upward, and the transparent resin layer for the lens and the stereo image original image layer. Is a stereo printed matter comprising a laminate in which a large number of rows are alternately laminated in the width direction so as to face each other.

  In the invention according to claim 3 of the present invention, a stereo image original image layer composed of a stripe-shaped original image for the right eye and an original image for the left eye having a predetermined width is formed on one surface of a base material layer made of paper or a transparent film at a predetermined pitch. On the stereo image original image layer side of the printing film formed by laminating multiple rows in the direction, a stripe-shaped liquid-repellent resin layer having a predetermined width on one surface of the transparent base layer, and a stripe having a predetermined width protruding upward in an arc shape The stereo image original image is formed on the light reflecting layer side of a laminated film obtained by laminating a plurality of rows of transparent resin layers for lenses alternately in the width direction and sequentially laminating an embossed hologram forming layer and a light reflecting layer on the other surface. It is a stereo printed matter characterized by comprising the laminated body which laminated | stacked so that the layer and the transparent resin layer for lenses might oppose.

The invention according to a fourth aspect of the present invention is the invention according to the first aspect, wherein the transparent resin layer for lenses has a striped liquid repellent resin layer and a striped stereo image original image layer on a paper base layer. After alternately laminating multiple rows in the width direction, an ultraviolet curable coating solution was applied to the entire surface, and the coating solution on the liquid repellent resin layer was repelled to swell the coating solution on the stereo image original image layer. It is a stereo printed matter characterized by being formed by irradiating and curing an ultraviolet ray in a state.

  The invention according to claim 5 of the present invention is the invention according to claim 2 or 3, wherein the transparent resin layer for lenses has a striped liquid-repellent resin layer on the transparent substrate layer at a predetermined interval. After laminating multiple rows in the width direction, apply an ultraviolet curable coating solution on the entire surface, and then repel the coating solution on the liquid-repellent resin layer to swell the coating solution on the transparent substrate layer. It is a stereo printed matter formed by irradiating and curing ultraviolet rays.

  The stereo printed material of the present invention has a stripe-shaped liquid-repellent resin layer having a predetermined width on one surface of the paper base layer, and a stereo image original image layer composed of a stripe-shaped original image for the right eye and an original image for the left eye having a predetermined width. Are laminated in a plurality of rows in the width direction alternately, and on the stereo image original image layer, a laminated body is formed by laminating a transparent resin layer for a stripe lens having the same width and projecting upward in an arc shape. After the transparent resin layer is formed by laminating a plurality of rows of stripe-shaped liquid repellent resin layers and stripe-shaped stereo image original image layers in the width direction alternately on the paper base layer, an ultraviolet curable coating solution is applied to the entire surface thereof, It is formed by irradiating and curing ultraviolet rays in a state where the coating solution on the stereo image original image layer is raised by repelling the coating solution on the liquid repellent resin layer, or one surface of the transparent substrate layer In a stripe with a predetermined width A stereo image original image layer composed of an original image for the left eye and an original image for the left eye is laminated in a row at a predetermined pitch in the width direction, a stripe-shaped liquid repellent resin layer having a predetermined width on the other surface, and a predetermined width protruding upward in an arc shape The stripe-shaped transparent resin layer for lenses is a laminate in which multiple rows are alternately laminated in the width direction so that the transparent resin layer for lenses and the stereo image original image layer face each other, or is made of paper or a transparent film. On one side of the base material layer, a stereo image original image layer composed of a stripe-shaped original image for the right eye and an original image for the left eye having a predetermined width is laminated on the stereo image original image layer side of the print film formed by laminating multiple rows in a width direction at a predetermined pitch In addition, a plurality of rows of stripe-shaped liquid-repellent resin layers having a predetermined width on one surface of the transparent base layer and a stripe-shaped transparent resin layer for lenses having a predetermined width protruding in an arc shape are alternately stacked in the width direction. , Emboss on the other side The lens is composed of a laminate in which the light reflecting layer side of a laminated film formed by sequentially laminating a hologram forming layer and a light reflecting layer is laminated so that the stereo image original image layer and the transparent resin layer for the lens face each other. The transparent resin layer for use is formed by laminating a plurality of stripe-shaped liquid-repellent resin layers in the width direction at a predetermined interval on the transparent base material layer, and then applying an ultraviolet-curing coating liquid on the entire surface to form a liquid-repellent resin layer It is formed by irradiating and curing with UV light in a state where the coating liquid on the transparent substrate layer is raised and the coating liquid on the transparent substrate layer is raised, so that the lens function is maintained on the surface without using a lens sheet. Therefore, the production efficiency is good, the alignment with the original stereo image layer is good, and an excellent stereoscopic quality is obtained. Further, by providing the embossed hologram forming layer and the light reflecting layer, a stereo printed matter with further functions can be obtained.

  The stereo print of the present invention will be described below along the embodiments. FIG. 1 (a) is a perspective view showing an embodiment of a stereo print of the present invention. The stereo print (1) is a striped liquid repellency having a predetermined width on one surface of a paper substrate layer (10). Four layers each of the conductive resin layer (21) and the stereo image original image layer (22) composed of the stripe-shaped original image for the right eye (R) and the original image for the left eye (L) having a predetermined width in the width direction, It consists of the laminated body which laminated | stacked the stripe-shaped transparent resin layer (23) for lenses which protrudes circularly upwards with the same width on the stereo image original image layer (22). The transparent resin layer (23) for the lens is formed by laminating a striped liquid repellent resin layer (21) and a striped stereo image original image layer (22) alternately in the width direction on the paper base layer (10). After that, an ultraviolet curable coating solution is applied to the entire surface, and the coating solution on the liquid repellent resin layer (21) is repelled so that the coating solution on the stereo image original layer (22) is raised. It is formed by the method of irradiating and curing.

  FIG. 1 (b) is a perspective view showing another embodiment of the stereo print of the present invention. The stereo print (2) has a stripe-shaped right eye having a predetermined width on one surface of the transparent substrate layer (11). A stereo image original image layer (22) composed of the original image (R) and the left-eye original image (L) is laminated in four rows at a pitch of x in the width direction, and a stripe-like liquid repellent resin layer (with a predetermined width on the other surface) 21) and a stripe-shaped transparent resin layer for lenses (24) having a predetermined width projecting upward in an arc shape so that the stereo image original image layer (22) and the transparent resin layer for lenses (24) face each other. It consists of a laminated body in which four rows are alternately laminated in the direction. A paper layer or a transparent film layer may be further laminated on the stereo image original image layer (22) side.

  FIG. 1 (c) is a perspective view showing still another embodiment of the stereo print of the present invention. The stereo print (3) has a stripe-shaped right eye having a predetermined width on one surface of the base material layer (12). Stereo image original image layer (22) composed of original image (R) and left eye original image (L) is laminated on the stereo image original image layer (22) side of a printing film (30) formed by laminating four rows in the width direction at a pitch of x. A stripe-shaped liquid-repellent resin layer (21) having a predetermined width on one surface of the transparent base layer (11), and a stripe-shaped transparent resin layer for lenses (24) having a predetermined width protruding in an arc shape upward; Are alternately laminated in the width direction, and the light reflecting layer (26) side of the laminated film (31) in which the embossed hologram forming layer (25) and the light reflecting layer (26) are sequentially laminated on the other entire surface, Stereo image original layer (22) and lens transparent resin layer (24) It consists stacked laminate via an adhesive layer (27) such that.

  The transparent resin layer for lenses (24) in FIGS. 1B and 1C is obtained by laminating four rows of stripe-shaped liquid repellent resin layers (21) in the width direction on the transparent base layer (11). Then, an ultraviolet curable coating solution is applied to the entire surface, and the coating solution on the liquid-repellent resin layer (21) is repelled and the coating solution on the transparent substrate layer (11) is raised to irradiate ultraviolet rays. And then cured.

  The relationship between the pitch (x) of the stereo image original image layer (22) and the pitch (y) of the transparent resin layer for lenses (24) is x = ny or x = y / n (n is an integer of 1 to 10). ) Is the target.

As the paper used for the paper base layer (10), paper having a basis weight of 100 to 500 g / m ² is used.

  The transparent substrate layer (11) is composed of a transparent single layer film or a laminated film, and as the single layer film, a polyester film, a polyamide film, or a polypropylene film can be used. A gas barrier film layer such as a metal oxide vapor-deposited film, an ethylene / vinyl alcohol film or a polyvinyl alcohol film, or a polyolefin-based resin obtained by laminating a sealant layer made of a polyolefin-based resin on the single-layer film, or the single-layer film. A laminate obtained by laminating a sealant layer made of can be used.

The base material layer (12) is made of paper or a polymer film. As the paper, paper having a basis weight of 100 to 500 g / m ² can be used. As the polymer film, a polyester film or a polyamide film is used. A vapor deposition film such as a polypropylene film, a metal, or a metal oxide can be used.

  The liquid repellent resin layer (21) is formed in a stripe shape by a known gravure printing method using an ink containing a fluorine resin or a silicone resin.

  The stereo image original image layer (22) is formed in a stripe shape by a known gravure printing method using a normal paper ink or film ink.

  The transparent resin layers for lenses (23, 24) are formed in a stripe shape using an ultraviolet curable coating agent, for example, a coating agent mainly composed of an acrylic oligomer.

  The polymer resin used for the embossed hologram forming layer (25) is polyester resin, polystyrene resin, polypropylene resin, polyethylene resin, polyamide resin, ethylene / methacrylic acid copolymer resin, ethylene / acrylic acid copolymer resin, ionomer. Any material that can be melt-extruded from resin, polymethylpentene resin, etc., and embossed in a concavo-convex shape when hot-pressed with a hologram stamper may be used. In consideration of workability and economic efficiency, a thickness in the range of 5 to 200 μm can be used.

  Furthermore, as a method for laminating the embossed hologram forming layer (25), a general coating method such as a gravure coating method or a roll coating method, a method in which a polymer resin is melt extruded using a melt extruder, and the like are employed. it can.

  The light reflecting layer (26) is laminated to reflect light and to clarify the embossed hologram, and is formed from a metal vapor-deposited thin film or a transparent vapor-deposited thin film. The metal-deposited thin film is preferably made of a material having a high surface reflectance, and aluminum, gold, silver, copper, tin and alloy materials thereof are used. As the material for the transparent vapor-deposited thin film, an embossed hologram forming layer ( A resin having a large difference from the refractive index of the resin used in 25) is preferable. For example, the refractive index of titanium oxide, silicon oxide, tin oxide, zinc oxide, indium oxide, aluminum oxide, magnesium oxide, zinc sulfide, cadmium sulfide, etc. High one is good.

  The light reflecting layer (26) is laminated by a vacuum deposition method, a sputtering method, an ion plating method or the like. The thickness is preferably in the range of 5 to 500 nm.

The adhesive layer (27) is made of a polyurethane adhesive mainly composed of polyester polyol, polyether polyol, or acrylic polyol, and the coating amount is 1 to 5 g / m ² in a dry state.

(A) is a perspective view which shows one Embodiment of the stereo printed matter of this invention, (b) is a perspective view which shows other Embodiment of a stereo printed matter, (c) is further another embodiment of a stereo printed matter. FIG.

Explanation of symbols

1, 2, 3 ... Stereo printed matter 10 ... Paper base material layer 11 ... Transparent base material layer 12 ... Base material layer 21 ... Liquid repellent resin layer 22 ... Stereo image original image layers 23, 24 ... Transparent resin layer 25 for lens ... Emboss Hologram forming layer 26 ... Light reflecting layer 30 ... Print film 31 ... Laminated film R ... Right eye original image L ... Left eye original image x ... Stereo image original image layer pitch y ... Lens transparent resin layer pitch

Claims (5)

  A large number of stripe-shaped liquid repellent resin layers with a predetermined width and a stereo image original image layer composed of a stripe-shaped right-eye original image and left-eye original image with a predetermined width are alternately arranged on one surface of the paper base material layer. A stereo printed matter comprising: a laminated body in which a stripe-shaped transparent resin layer for a lens having a same width and projecting upward in an arc shape is laminated on the stereo image original image layer.   A stereo image original image layer composed of a stripe-shaped original image for the right eye and an original image for the left eye having a predetermined width is laminated on one surface of the transparent base material layer in the width direction at a predetermined pitch, and a stripe shape having a predetermined width is formed on the other surface. The liquid-repellent resin layer and the stripe-shaped transparent resin layer with a predetermined width projecting in an arc shape are alternately arranged in the width direction so that the transparent resin layer for lens and the original stereo image layer face each other. A stereo printed matter comprising a laminate in which a plurality of rows are laminated.   A printed film formed by laminating a plurality of rows of stereo image original layers composed of a right-width original image and a left-eye original image having a predetermined width on one surface of a base layer made of paper or a transparent film at a predetermined pitch in the width direction. On the stereo image original image layer side, a stripe-shaped liquid-repellent resin layer having a predetermined width on one surface of the transparent base layer and a stripe-shaped transparent resin layer for lenses having a predetermined width protruding upward in an arc shape The stereo image original image layer and the lens transparent resin layer face each other on the light reflecting layer side of the laminated film formed by laminating multiple rows in the direction and sequentially laminating the embossed hologram forming layer and the light reflecting layer on the other entire surface. A stereo printed matter comprising a laminated body laminated as described above.   After the transparent resin layer for the lens is formed by laminating a plurality of stripe-shaped liquid repellent resin layers and stripe-shaped stereo image original image layers alternately in the width direction on the paper base layer, an ultraviolet curable coating liquid is applied on the entire surface thereof. 2. The coating composition according to claim 1, wherein the coating liquid on the liquid repellent resin layer is repelled and cured by irradiating with ultraviolet rays in a state where the coating liquid on the original stereo image layer is raised. The stereo print described.   The transparent resin layer for the lens is formed by laminating a plurality of stripe-shaped liquid repellent resin layers in the width direction at a predetermined interval on the transparent base material layer, and then applying an ultraviolet curable coating liquid on the entire surface thereof to make the liquid repellent The coating liquid on the resin layer is repelled to form the coating liquid on the transparent base material layer, and is formed by irradiating with ultraviolet rays and curing the coating liquid. Stereo print.

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