KR101238048B1 - Plastic films for lamination including hologram pattern and method thereof - Google Patents

Abstract

The present invention relates to a plastic film for lamination with a hologram formed and a method for manufacturing the same, and in particular, a plastic film for lamination formed with a hologram used as exterior materials for home appliances, interior and exterior interior of buildings and decorative surfaces for furniture, and the like. It relates to a manufacturing method.

The plastic film for lamination formed with the hologram according to the present invention has a primer layer 102 and an ultraviolet curable resin layer 101 formed on the surface side of the transparent film base layer 103, and a hologram layer 104 on the back side thereof. ), The metal deposition layer 105 and the crosslinking adhesive layer 106 are sequentially configured.

The plastic film for lamination in which the hologram is formed according to the present invention can express a hologram pattern that cannot be expressed in a conventional print area without loss due to the hologram resin composition being transferred into the transparent film substrate 103 layer, and convenience in printing. Due to its low pollution and low cost, it can be applied to interior and exterior interior products, screen printing, and various finishing materials.

    Hologram, Finish, Lamination, Crosslinking, Metal Deposition, Glossiness, Optical Density

Description

Holographic plastic film for lamination and its manufacturing method {Plastic films for lamination including hologram pattern and method

1 is a block diagram showing a cross-section of a plastic film for lamination with a hologram formed in accordance with the present invention

Figure 2 is a manufacturing process flow chart showing a manufacturing method of a plastic film for lamination formed hologram of the present invention.

  Description of the Related Art

101: UV curable resin layer

102: primer layer

103: transparent film base material (layer)

104: hologram layer

105: metal deposition layer

106: crosslinking adhesive layer

107: coloring film layer

The present invention relates to a plastic film for lamination in which the hologram is formed and a manufacturing method thereof. More specifically, the plastic film for lamination having a hologram pattern formed by forming a hologram pattern on a transparent plastic film used for exterior materials of home appliances, interior and exterior interiors of furniture, and furniture surface decorative finishes, and its manufacture It is about a method.

In general, a hologram pattern refers to a technology capable of reproducing a three-dimensional shape, and refers to a technology in which laser light forms a reflected wave and an object wave to reproduce an image of an object three-dimensionally through an interference fringe phenomenon.

The hologram pattern technology as described above is used in many industrial fields, but has not yet been applied to the plastic for iron plate lamination.

Conventionally, in order to realize a three-dimensional effect on the finishing material, after performing various printing operations on the surface of the polypropylene, polyvinyl film produced through extrusion, calendar ring, etc., the transparent film is laminated or coated with a treatment agent. Thereafter, heat is applied to the film to press the roll in which the pattern is engraved to prepare.

Meanwhile, Korean Patent No. 0329906 is characterized in that a surface protective layer, a plastic support, a holographic stamping layer, a metal deposition layer, a colored pressure-sensitive adhesive layer, a plastic film support, a pressure-sensitive adhesive layer and a release film are sequentially stacked.

Japanese Patent No. 3230312 discloses holographic yarns laminated on one side of a transparent base sheet in the order of a hologram layer, a light reflection layer, an adhesive layer, etc., but this kind of finish can express a three-dimensional effect, but the gloss control This is not easy and it is difficult to show the metallic texture naturally. In addition, when the encapsulant layer is laminated on the iron plate, the holographic pattern image is difficult to be clearly realized.

The present invention has been made to solve the above problems, to provide a lamination film and a method of manufacturing the same to form an excellent three-dimensional effect by forming a holographic pattern and a metal deposition layer directly on the transparent film substrate as a base material of the finishing material. I will.

Another object of the present invention is to provide a lamination film and a method of manufacturing the same, which can realize a holographic pattern effect of a subtle feeling through the gloss control of the hologram pattern, and also can implement a variety of metal texture due to the adjustable deposition. will be.

In addition, the present invention is to provide a lamination film excellent in the bonding force between the substrate layer and the metal deposition layer and the colored film layer and the substrate layer and a method of manufacturing the same.

The object of the present invention is to form a plastic film for lamination with a hologram formed around the transparent film base layer 103 on the surface side of the primer layer 102 and the ultraviolet curable resin layer 101, the back side of the hologram layer ( 104, the metal deposition layer 105 and the crosslinking adhesive layer 106 can be achieved in sequence.

The plastic film for lamination with a hologram according to the present invention has a primer layer and an ultraviolet curable resin layer formed on a surface thereof, and a hologram layer, a metal deposition layer, and a crosslinking adhesive layer are formed on the surface side thereof, in turn, on a transparent film substrate . It is done.

The holographic formed plastic film for lamination according to the present invention may be further laminated with a colored film on the cross-linking adhesive layer.

The plastic film for lamination in which the hologram is formed according to the present invention is particularly suitable for a metal plate (or metal surface), thereby maximizing the hologram pattern effect by laminating and using the metal surface.

As the metal used by laminating the film on which the hologram pattern is formed, it may be preferably used for metal surfaces such as iron plate and aluminum.

The hologram formed plastic film for lamination according to the present invention comprises the steps of forming a primer layer on the surface of the transparent film substrate; Forming an ultraviolet curable resin layer on the primer layer; Stamping a hologram pattern on a rear surface of the transparent film substrate; Depositing a metal deposition layer over the hologram pattern; It may be prepared by a manufacturing method comprising the step of forming a cross-linking layer on the metal deposition layer.

The transparent film base material may preferably be a polyester (PET), polyporopropylene (PP) or polyethylene (PE) film.

The hologram-formed plastic film for lamination according to the present invention preferably has a glossiness of 50% to 100% through the ultraviolet curable resin layer.

The glossiness can be imparted and adjusted by a method of adding a PE wax or PC wax, which is a matting agent, to the ultraviolet curable resin. In the present invention, when the glossiness is less than 50%, a problem may occur that the effect of the hologram pattern is sharply reduced, and when it exceeds 100%, a defect that may act as a side effect when applying the product may occur due to the glare effect of the hologram pattern. have.

As the UV curable resin, a one-component type, solvent-free, epoxy- or acryl-based resin that can easily adjust workability, film thickness, and viscosity during spin coating can be used.

It is also desirable that the optical density of the metal deposition layer used to exhibit the metal effect is 0.3 to 1.0.

The optical density of the metal deposition layer may be adjusted by a method of controlling the rate at which the transparent film passes through the deposition line. In the present invention, when the optical density is less than 0.3, a problem in which left and right deviations of the deposition layer may occur may occur. In the case of more than 1.0, a defect may occur in which the deposition layer becomes opaque and the effect of the colored film layer disappears.

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

 1 is a schematic configuration diagram showing a cross section of a plastic film for lamination with a hologram according to the present invention.

 As shown in FIG. 1, the plastic film for lamination with a hologram according to the present invention is a fryer layer 102, a transparent film base layer 103, a hologram layer 104, a metal from an ultraviolet curable resin layer 101 which is a surface layer. The deposition layer 105, the crosslinking adhesive layer 106, and the colored film 107 are sequentially formed in a laminated structure. In the plastic film for lamination in which the hologram is formed, the crosslinked adhesive layer 106 or the colored film 107 is bonded to the adhered material and laminated.

 2 is a flowchart illustrating a method of manufacturing a plastic film for lamination in which the hologram of the present invention is formed.

 The step H1 is a step of forming the primer layer 102 on the upper surface (surface) of the transparent film base layer 103.

The plastic film used as the base layer 103 has a hologram pattern effect when a PET film having a thickness of 12 to 50 micrometers (μm), a haze of 1 to 10 percent (%), or a gloss of 90 percent (%) or more is used. Can be increased more clearly.

The primer layer 102 formed on the surface of the base layer 103 should be fast curable, and should have excellent adhesion between the base layer 103 and the UV coating layer and have no yellowing property. Coating solvents for the primer layer 102 include aromatic compounds such as benzene, toluene and xylene; Ketones including acetone and methyl ethyl ketone; A mixed solution in which 1 to 10 parts by weight of adipic acid, 2 to 5 parts by weight of chlorophenol, and 5 to 10 parts by weight of isophthalic acid are dissolved in 50 to 97 parts by weight of a solvent such as chloroform, dichloromethane, and halogenated hydrocarbon such as tetrachlorocarbon. Formed by coating. Coating thickness is applied in 0.1 to 10㎛, the coating thickness can be adjusted by adjusting the viscosity.

Step H2 is a step of forming the ultraviolet curable resin layer 101 on the primer layer 102.

The ultraviolet curable resin can be used in any kind as long as it is a general-purpose ultraviolet curable resin composition composed of an acrylic monomer, a photoinitiator by ultraviolet light, and a solvent. For example, urethane acrylate curable resin, epoxy acrylate resin, or the like can be used.

Step H3 is a step of stamping the hologram pattern layer 104 on the back surface (lower surface) of the substrate layer 103 at 150 to 250 ° C. The production of the hologram pattern is a pattern imprinted using an embossed hologram method. The computer graphic design or a three-dimensional object is used to shine a laser interference pattern on the photosensitive plate to record the unevenness corresponding to the intensity of the pattern on the photosensitive agent. After hologram recording, a master plate for embossing is manufactured by nickel plating to emboss a stamping foil or an aluminum deposition (or covering) film.

Step H4 is a step of depositing a metal deposition layer of aluminum or the like on the hologram pattern layer 104, which may be formed by a metal deposition method. For example, an aluminum deposition film is deposited using a vacuum deposition method, and a deposition film having a thickness of 200 to 500 kPa may be formed by performing vacuum deposition at a vacuum of 10 ⁻² to 10 ⁻⁶ Torr and a temperature of 300 to 800 ° C. Vacuum deposition can generally employ methods such as DC sputtering, plasma and ion beam sputtering.

Step H5 is to form a cross-linking adhesive layer 106 on the metal deposition layer 105 by using various printing methods such as offset, gravure, silk screen, inkjet, etc., 5 to 15 parts by weight of ethylene glycol, 1,6- 5-10 micrometers is apply | coated and adhere | attached using the urethane type two-component adhesive which consists of 1-10 weight part of hexanediol, 10-15 weight part of trimethyl propanes, and 40-60 weight part of toluene diisocyanate. By forming the adhesive layer into an opaque layer, a more sharp three-dimensional appearance can be exhibited. In the present invention, when the adhesive layer is formed of an opaque layer, a pigment may be added to the urethane-based two-component adhesive.

Step H6 is a step of selectively bonding the color film 107 on the cross-linking adhesive layer 106. By laminating the colored film 107, a clearer hologram, a metal texture, and a three-dimensional appearance can be expressed.

 As described above, according to the plastic film for lamination in which the hologram pattern is formed and the manufacturing method thereof, the hologram pattern that can not be expressed in the existing print area can be represented without loss due to the hologram resin composition being transferred into the transparent film base layer. In addition, due to the convenience of printing, pollution-free and low cost, it has various characteristics that can be applied to interior and exterior interior products, screen printing, and various finishing materials.

Claims (9)

A primer layer and an ultraviolet curable resin layer are formed on the surface side of the transparent film substrate, and a hologram layer, a metal deposition layer, and a crosslinking adhesive layer are sequentially formed on the back side thereof. The glossiness of the ultraviolet curable resin layer is a plastic film for lamination formed hologram, characterized in that 50 to 100%. delete The method of claim 1, wherein the optical density of the metal deposition layer is 0.3 to 1.0, characterized in that the hologram formed plastic film for lamination. The holographic formed plastic film for lamination according to claim 1, wherein the transparent film base material is a polyester, polypropylene or polyethylene film. The holographic formed plastic film for lamination according to claim 1, wherein the crosslinking adhesive layer is opaque. The plastic film for lamination according to any one of claims 1 and 3 to 5, wherein a colored film is further laminated on the crosslinking adhesive layer. 7. The plastic film for lamination according to claim 6, wherein the plastic film for lamination in which the hologram is formed is for laminating a metal plate (or metal surface). Forming a primer layer on the surface of the transparent film substrate; Forming an ultraviolet curable resin layer on the primer layer; Stamping a hologram pattern on a rear surface of the transparent film substrate; Depositing a metal deposition layer over the hologram pattern; Forming a crosslinking layer on the metal deposition layer; And laminating the colored film on the cross-linked adhesive layer in a laminator manner. delete

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