KR101131642B1 - Stereoscopic Image Film and Method of Preparing the Same - Google Patents

Abstract

The present invention sheet; It provides a three-dimensional image film comprising an upper pattern portion repeatedly formed at regular intervals on the upper surface of the base sheet and a lower pattern portion repeatedly formed at regular intervals on the lower surface of the base sheet. In addition, the method for producing a three-dimensional image film of the present invention comprises the steps of coating a resin on one surface of the base sheet, and forming a pattern on the upper surface of the applied resin; Curing the pattern with ultraviolet (UV) to form an upper pattern portion; Applying a resin to an opposite surface of the base sheet, and forming a pattern on an upper surface of the applied resin; And curing the pattern with ultraviolet (UV) to form a lower pattern portion.

Description

Stereoscopic Image Film and Method of Preparing the Same

The present invention relates to a three-dimensional image film and a method for manufacturing the same, and more particularly, to implement a fine pattern, to manufacture a thin thickness, and to a three-dimensional image film and a manufacturing method having a simple manufacturing process.

Microlenses are lenses having a diameter of about 1 to 500 μm, and are mainly used as optical materials for displays. In addition, the three-dimensional image film is a film for implementing a three-dimensional image visually by forming a coating layer on a flat printed matter, and refers to a film mainly used for exterior materials of electronic products, home appliances and furniture, or advertisements.

Recently, as the demand level of consumers for the design of products such as electronic products, home appliances, and furniture increases, research on the design of exterior materials as well as product quality and function is being actively conducted. Therefore, in the development of the design of the exterior material, the development of three-dimensional stereoscopic image film is increasing, deviating from the development of the conventional two-dimensional planar design. In order to manufacture a three-dimensional image film in the prior art by using a method of producing a three-dimensional print and then hard coating on the three-dimensional print, or by attaching a hologram (Hologram) film on a flat printed material to visually implement a three-dimensional image mainly It was. However, the above methods take a long time to produce a three-dimensional print, there is a problem that the manufacturing cost is high, and the durability is not excellent when using a hologram film.

In this regard, the Republic of Korea Patent No. 857839 relates to "synthetic resin plate attachment having a three-dimensional pattern formed on the surface," and adheres the vinyl sheet to one surface of the synthetic resin plate, the design by the computer for the vinyl sheet adhered surface A specific pattern shape, which is selected or selected to be engraved using an automatic engraving machine, paint and dry one or more paints, and then remove the vinyl sheet, and paint and dry one or more paints on the surface where the vinyl sheet has been removed. It discloses a synthetic resin plate attachment, characterized in that to form a three-dimensional pattern, the surface is formed in the engraved pattern facing the reflective medium to finish the rim with the engraved surface concealed inside. However, the prior art has a problem in that the three-dimensional shape is carved in the lower layer, the manufacturing process is complicated, it is difficult to produce a thin product thickness, and the manufacturing cost is high.

In addition, the Republic of Korea Patent Publication No. 2009-0131869 relates to a "sheet for a surface material having a three-dimensional effect and its manufacturing method", in the sheet for a variety of surface materials and its manufacturing method to give a three-dimensional effect, the sheet is a poly The use of ester film or polyvinyl chloride (PVC) sheet, and the three-dimensional effect combines the print layer with good color clarity and the hologram pattern of various patterns, and it is attached to the surface of indoor interior, closet and home appliances, and has excellent appearance. Disclosed are a sheet for a surface material which provides an effect, and a method of manufacturing the same. However, the conventional technology has a problem in that manufacturing cost is high and durability is low because the lower printing layer having a hologram pattern is used, so compatibility is not excellent.

Therefore, the present inventors can implement a fine pattern to solve the problems of the prior art, and can manufacture a thin thickness, a simple manufacturing process, high durability and excellent compatibility three-dimensional image film and its manufacturing method Led to develop.

An object of the present invention is to provide a three-dimensional image film and a method of manufacturing the same that can be implemented in a fine pattern, a thin thickness.

Another object of the present invention is to provide a three-dimensional image film and a method for producing the same simple manufacturing process.

Still another object of the present invention is to provide a stereoscopic image film having high durability and excellent compatibility and a method of manufacturing the same.

The above and other objects of the present invention can be achieved by the present invention described below.

The stereoscopic image film according to the present invention is characterized in that it comprises a base sheet, an upper pattern portion repeatedly formed at regular intervals on the upper surface of the base sheet and a lower pattern portion repeatedly formed at regular intervals on the lower surface of the base sheet. .

The base sheet is characterized in that the polycarbonate (PC) or polyethylene terephthalate (PET) sheet.

The upper pattern portion and the lower pattern portion is characterized in that the pattern is formed in a vertical symmetry with respect to the horizontal plane.

The upper pattern portion and the lower pattern portion may have a microlens pattern in which the shape of the pattern is embossed or a dome pattern formed in the intaglio.

The stereoscopic image film further includes a reflective layer formed on the outer surface of the lower pattern portion and a printed layer formed on the bottom surface of the reflective layer.

In addition, the method of manufacturing a three-dimensional image film according to the present invention by applying a resin to one surface of the base sheet, and forming a pattern on the upper surface of the applied resin (S110), by curing the pattern with ultraviolet (UV) Forming an upper pattern portion (S120), applying a resin on the opposite side of the base sheet, forming a pattern on the outer surface of the applied resin (S130) and curing the pattern with ultraviolet (UV) lower Forming a pattern portion (S140) is characterized in that it comprises a.

The manufacturing method may further include forming a reflective layer on the exposed surface of the lower pattern portion after the step S140 by deposition and forming a printed layer on the surface on which the reflective layer is formed.

The pattern may be a microlens pattern in which the shape of the pattern is embossed or a dome pattern formed in the intaglio.

The present invention has the effect of providing a three-dimensional image film and a method for producing a fine pattern, it is possible to manufacture a thin thickness, a simple manufacturing process, high durability and excellent compatibility.

1 is a cross-sectional view schematically showing a three-dimensional image film according to an embodiment of the present invention
Figure 2 is a cross-sectional view schematically showing a three-dimensional image film according to another embodiment of the present invention
Figure 3 is a cross-sectional view schematically showing a three-dimensional image film according to another embodiment of the present invention
Figure 4 is a cross-sectional view schematically showing a three-dimensional image film according to an embodiment of the present invention having a reflective layer and a printed layer
5 is an explanatory diagram showing a process of refracting and reflecting light from a light source for a stereoscopic image film according to an embodiment of the present invention;
Figure 6 is a flow chart schematically showing a manufacturing method of a three-dimensional image film according to an embodiment of the present invention

1 is a cross-sectional view schematically showing a stereoscopic image film according to an embodiment of the present invention.

As shown in Figure 1, the three-dimensional image film according to an embodiment of the present invention is a base sheet 10, the upper microlens pattern portion 21 and the substrate repeatedly formed at regular intervals on the upper surface of the base sheet The lower surface of the sheet is configured to include a lower microlens pattern portion 22 repeatedly formed at regular intervals.

Here, the base sheet 10 may selectively use a material having flexibility or a material having inflexibility. For example, in the method of manufacturing a stereoscopic image film, when using a pattern forming method according to a roll to roll manufacturing method, a base sheet having flexibility may be used in the form of a film. In addition, the material of the base sheet 10 is not particularly limited, but considering the characteristics and durability of the three-dimensional image, it is preferable to use a sheet of polycarbonate (PolyCarbonate: PC) or polyethylene terephthalate (PET) material Do.

An upper microlens pattern portion 21 and a lower microlens pattern portion 22 are formed on an upper surface and a lower surface of the base sheet 10, respectively. The optical signal incident from the bottom surface of the lower microlens pattern portion 22 is refracted while passing through the lower microlens pattern portion 22, and the optical signal is refracted while passing through the upper microlens pattern portion 21. The upper surface of the upper microlens pattern portion 21 receives a visual three-dimensional optical signal. The arrangement of the upper microlens pattern portion 21 and the lower microlens pattern portion 22 is preferably formed up and down symmetrically with respect to the horizontal plane, but according to the material of the base sheet and the microlens pattern portion and the optical signal medium, Fine correction may be required. In addition, the material of the microlens pattern portion may be selected according to the purpose of use in consideration of the refractive index and the three-dimensional effect, so it is not particularly limited.

2 is a cross-sectional view schematically showing a stereoscopic image film according to another embodiment of the present invention.

As shown in Figure 2, the three-dimensional image film according to another embodiment of the present invention is a base sheet 10, the upper microlens pattern portion 21 and the substrate repeatedly formed at regular intervals on the upper surface of the base sheet It is configured to include a lower domed pattern portion 32 is formed on the lower surface of the sheet at regular intervals.

As described above, the base sheet 10 may selectively use a material having flexibility or a material having inflexibility, and may be polycarbonate (PC) or polyethylene terephthalate (PET). It is preferable to use a sheet of the material.

In addition, an upper microlens pattern portion 21 is formed on an upper surface of the base sheet 10, and a lower negative pattern portion 23 is formed on a lower surface of the base sheet 10. The optical signal incident from the bottom surface of the lower domed pattern portion 32 is refracted while passing through the lower domed pattern portion 32, and the optical signal refracted is refracted while passing through the upper microlens pattern portion 21 to be upper micro. The upper surface of the lens pattern portion 21 receives a visual three-dimensional optical signal. The arrangement of the upper microlens pattern portion 21 and the lower dome pattern portion 32 is preferably formed such that the center of the upper microlens pattern portion and the center of the dome shape of the lower intaglio pattern portion are left-right symmetrical. However, fine correction of the arrangement may be required depending on the material of the base sheet, the microlens pattern portion or the intaglio pattern portion, and the optical signal medium. In addition, the material of the microlens pattern portion and the intaglio pattern portion may be selected according to the purpose of use in consideration of the refractive index and the three-dimensional effect, so it is not particularly limited.

Although not shown in the specification, the microlens pattern portion is formed on the upper portion of the base film 10, the dome pattern portion is not formed on the lower portion, the dome pattern portion is formed on the upper portion of the base film 10, and the microlens pattern portion is formed on the lower portion of the base film 10. It may be formed to produce a three-dimensional image film.

Figure 3 is a cross-sectional view schematically showing a three-dimensional image film according to another embodiment of the present invention.

As shown in FIG. 3, the stereoscopic image film according to another embodiment of the present invention forms an upper dome pattern portion 31 on an upper surface of the base film 10, and a lower surface of the base film 10. It can be manufactured by forming a lower dome pattern portion 32 in the. When manufacturing a stereoscopic image film by forming a domed pattern portion on the upper and lower surfaces of the base film, the pattern may be formed using only microlenses or a stereoscopic image film different from the stereoscopic image film manufactured by mixing the microlens and the dome pattern portion may be formed according to the purpose of use. Formation can be chosen.

Figure 4 is a schematic cross-sectional view of a three-dimensional image film according to an embodiment of the present invention having a reflective layer and a printed layer.

As shown in FIG. 4, the stereoscopic image film according to the exemplary embodiment of the present invention includes a reflective layer 40 formed on the exposed surface of the lower microlens pattern portion 22 and a printed layer 50 formed on the bottom surface of the reflective layer. It may be configured to include more. The reflective layer 40 preferably forms a coating layer by coating a material of a metallic material having excellent reflectance on the lower microlens pattern portion 22. Therefore, the reflective layer 40 is preferably formed by depositing a metal such as platinum (Pt) or gold (Ag) on the exposed surface of the lower microlens pattern portion 22. In addition, a printed layer 50 may be formed on the bottom of the reflective layer 40. There is no particular limitation on the method of forming the printing layer 50, and for example, the printing layer 50 is formed on the lower surface of the reflective layer 40 by a silkscreen, inkjet, laser, or roll-to-roll method. Are manufactured. Alternatively, a method of adhering the print layer 50 to the reflective layer 40 by applying a transparent adhesive layer such as an optically clear adhesive (OCA) to the upper surface of the printed material may be used. In FIG. 3, the stereoscopic image film having the microlens pattern portions formed on the upper and lower surfaces of the base film 10 has been described. However, the three-dimensional image film having the microlens pattern portion formed on one surface of the base film 10 and the dome pattern portion formed on the opposite side thereof; It should be understood that the same applies to the case where a stereoscopic image film in which both domed pattern portions are formed on both sides of the base film 10 is manufactured.

5 is an explanatory diagram showing a process of refracting and reflecting light from a light source for a stereoscopic image film according to an embodiment of the present invention.

As shown in FIG. 5, when light is incident from the light source A to the stereoscopic image film according to the exemplary embodiment of the present disclosure, refraction and reflection are generated at the interface between the upper microlens pattern portion 21 and the air layer. Here, the refracted light passes through the base film 10, and the light passing through the base film 10 generates total reflection, refraction, etc. at the interface between the lower microlens pattern part 22 and the air layer, resulting in light emitted. Produces a stereoscopic image with different focal lengths for one image. Therefore, the image existing in the bottom of the three-dimensional image film can be used as a three-dimensional image film to implement an effective three-dimensional because it is recognized as a three-dimensional when viewed with the naked eye at a predetermined position.

6 is a flowchart schematically showing a method of manufacturing a stereoscopic image film according to an embodiment of the present invention.

As shown in Figure 6, the method for producing a three-dimensional image film according to an embodiment of the present invention is a step of applying a resin on one surface of the base sheet, and forming a pattern on the upper surface of the applied resin (step S110) Forming an upper pattern portion by curing the pattern with ultraviolet (UV) (step S120), applying a resin to the opposite side of the base sheet, and forming a pattern on the outer surface of the applied resin (step S130) ) And hardening the pattern with ultraviolet (UV) to form a lower pattern portion (step S140). In addition, the manufacturing method of the three-dimensional image film of the present invention may further comprise the step of forming a reflective layer by the deposition on the exposed surface of the lower pattern portion after step S140 and forming a printed layer on the surface on which the reflective layer is formed. have.

Since the stereoscopic image film according to the present invention has excellent functional aesthetics and is capable of forming a high quality three-dimensional design, it can be used as a film attached to exterior materials such as electronic products, home appliances and furniture.

10: base sheet 21: upper microlens pattern portion
22: lower microlens pattern portion 23: lower intaglio pattern portion
31: upper dome pattern portion 32: lower dome pattern portion
40: reflective layer 50: printed layer

Claims (8)

Base sheet;
An upper pattern portion formed on the upper surface of the base sheet at regular intervals;
A lower pattern portion repeatedly formed at regular intervals on the lower surface of the base sheet;
A reflective layer formed on an outer surface of the lower pattern portion; And
A printed layer formed on the bottom surface of the reflective layer;
Three-dimensional image film comprising a. According to claim 1, wherein the base sheet is a stereoscopic image film, characterized in that the polycarbonate (PC) or polyethylene terephthalate (PET) sheet. The stereoscopic image film of claim 1, wherein the upper pattern portion and the lower pattern portion have a pattern formed vertically symmetric with respect to a horizontal plane. The stereoscopic image film of claim 1, wherein the upper pattern portion and the lower pattern portion have a microlens pattern in which the shape of the pattern is embossed or a dome pattern formed in the intaglio. delete Applying a resin to one surface of the base sheet, and forming a pattern on an upper surface of the applied resin (S110);
Curing the pattern with ultraviolet (UV) to form an upper pattern portion (S120);
Applying a resin to an opposite surface of the base sheet, and forming a pattern on an outer surface of the applied resin (S130); And
Curing the pattern with ultraviolet (UV) to form a lower pattern portion (S140);
It includes, and after the step S140 to form a reflective layer using the deposition on the exposed surface of the lower pattern portion; And forming a printing layer on a surface on which the reflective layer is formed. delete The method of claim 6, wherein the pattern is a microlens pattern formed in an embossed pattern or a dome pattern formed in an intaglio.

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